Program Booklet

Transcription

Program Booklet

©
©
Sponsoring Institutes and
Companies
The 2013 Nuclear Science Symposium
and Medical Imaging Conference is
Sponsored by:
The Nuclear and Plasma Sciences
Society of the Institute of Electrical
and Electronics Engineers
With generous contributions from:
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Ministry of Science, ICT & Future Planning
The Korean Federation of Science
and Technology Societies
Korea Tourism Organization
Seoul Metropolitan Government
Gangnam Gu
National Institutes of Health (NIH)
Samsung Electronics
GE Healthcare
Siemens
Philips
ORTEC
Toshiba
Osteosys Co., Ltd.
Rayence, Co., Ltd.
Vatech Co., Ltd.
Converging Research Headquarters for
Frontier Medical Instruments, Sogang
University
Hamamatsu Photonics K. K.
In cooperation with:
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©
Seoul National University, Korea
Yonsei University, Korea
Korea University, Korea
KAIST, Korea
Brookhaven National Laboratory,
USA
CEA Saclay, France
University of Washington, USA
U.S. Department of Health and
Human Services, USA
Table of Contents
Color Code
3
Welcome from the General Chair
4
Registration and Fees
6
Electronic Registration 6
On-Site Registration 6
Badge Policies 6
Registration Hours at the Conference 7
Conference Registration Fees
7
Luncheon/Dinner Fees
8
Short Course Fees
8
Cancellation and Refund Policy
8
IEEE Membership
8
General Information
9
Hotel and COEX Convention Center
9
Conference Web Site
9
Transportation to the Convention Center from the Airport 9
Parking10
Message Board 10
Computer Access
10
Smoking Policy 10
Electronic Recording Policy 11
Social Activities 11
Companion Program
12
Presentation & Poster Guidelines
19
Oral Presentation Instructions
19
Poster Presentation Instructions
19
Publications20
Conference Record
20
Transactions on Nuclear Science (TNS) 21
Transactions on Medical Imaging (TMI)
23
Comparison of Requirements
23
Short Course Program
24
Industrial Program
36
List of Exhibitors (as of July 13, 2013)
37
Exhibitor Technical Sessions
38
Special Focus Workshops
40
NSS Special Focus Workshops
40
MIC Special Focus Workshops
41
Special Events
50
NSS - Nuclear Science Symposium 53
NSS Plenary Talks
55
NSS Luncheon
59
NSS Refresher Courses
60
MIC - Medical Imaging Conference
61
MIC Plenary Talks
63
MIC Refresher Courses
66
Table of Contents 1
RTSD - 20th International Workshop on RoomTemperature Semiconductor X-Ray and Gamma Ray
Detectors70
RTSD Luncheon
71
Joint Sessions
72
Sunday - Workshop Oral Presentations
79
Monday - NSS Oral Presentations
87
Monday - RTSD Oral Presentations
93
Monday - Workshop Oral Presentations
96
Tuesday - NSS Oral Presentations 105
Tuesday - RTSD Oral Presentations
113
Tuesday - Joint Oral Presentations
114
Tuesday - NSS Poster Presentations
117
Tuesday - RTSD Poster Presentations
135
Wednesday - NSS Oral Presentations
145
Wednesday - MIC Oral Presentations
155
Wednesday - RTSD Oral Presentations
158
Wednesday - Joint Oral Presentations
160
Wednesday - NSS Poster Presentations
161
Wednesday - RTSD Poster Presentations
179
Thursday - NSS Oral Presentations
185
Thursday - MIC Oral Presentations
196
Thursday - RTSD Oral Presentations
201
Thursday - MIC Poster Presentations
204
Friday - MIC Oral Presentations
223
Friday - RTSD Oral Presentations
226
Friday - MIC Poster Presentations
227
Saturday - MIC Oral Presentations
257
Author Index
262
Contributions from Collaborations
262
Contributions from Individuals
263
Acknowledgment309
Advisory Committee
310
NSS Topic Conveners
311
NSS Reviewers 311
MIC Assistant Chairs
319
MIC Reviewers
320
RTSD Steering Committee
327
Conference Information and Promotion (CIP) Committee 327
Contact Information
329
Seattle 2014 IEEE NSS/MIC
IBC
2 Table of Contents Color Code
We have implemented a simple color coding scheme in an effort
to provide a guide in the use of this program booklet and to
consistently indicate the content of any given section.
The program section is divided by weekday to provide a
complete package of sessions for each conference day. Each
daily section includes oral, poster, joint, and special sessions and
workshops.
The page color for oral and poster session content is reversed
for clarity: oral presentation listings are contained in colored
pages with the day indicated with a lighter watermark. Poster
presentation pages are light color with a darker watermark.
At the beginning of each day, a Daily Schedule is presented to
give an overview of the events for the respective day. The Daily
Schedule uses the same colors used for each respective program.
The colors shown below are used as indicated.
Sessions
NSS Sessions
MIC Sessions
RTSD Sessions
Joint Sessions
Workshops or Special Events Sessions
Daily Program
Sunday
Monday
Tuesday
Wednesday
Thursday
Friday
Saturday
Additional Daily Schedule Colors
Industrial Exhibit
Short Courses
Social Activities
Color Code 3
D
ear Colleagues and Friends,
It will be our great pleasure to
welcome you to Seoul and to the
2013 IEEE Nuclear Science Symposium
and Medical Imaging Conference, and
Room-Temperature Semiconductor X-Ray
and Gamma-Ray Detectors workshop.
Hee-Joung Kim
Welcome from the General
Chair
The 2013 Conference will be held, for the first time in Asia-Pacific
region, in the beautiful and historical city of Seoul, Korea, from
October 27th - November 2nd, 2013 at the spacious and modern
COEX convention center.
The conference center is located in the south part of the city,
with easy access to the airport, and within walking distance of
a variety of other hotels in many categories. It is conveniently
linked to the city center, the historical museums and the ancient
palaces by walk or by public transport. The hotels are a short
walk from a collection of restaurants, shops, movie theaters, and
other options in the Downtown city area.
Our theme for 2013 is “Beyond Imagination of Future Science”
and the Organizing Committee is planning a meeting of
high scientific level that will include both oral and poster
presentations and refresher courses on important topics. A
commercial exhibition that will showcase state-of-the-art
products and services from a wide range of companies will be
held in parallel to the scientific sessions. The exhibit space will
be specifically setup to allow both the exhibitors and attendees
ample space for discussions and exploration of common
interests. In addition to the presentation of original work, the
conference also provides extensive educational opportunities
via short courses and special emphasis seminars before and
during the conference. The popular refresher courses will be
held during the week to review current topics of special interest.
As in past years, the conference will be making special efforts
to obtain support grants for students to attend this important
meeting and take full advantage of this unique scientific and
educational opportunity. This meeting has always been a great
opportunity to get together with old friends and to make new
ones, to exchange ideas and share knowledge and experience
in the nuclear science, medical imaging, and room-temperature
semiconductor X-Ray and Gamma-Ray detector fields. This
meeting expects to bring more people from Asia-Pacific areas to
make 2013 conference very special and meaningful so that the
IEEE NSS/MIC/RTSD gets promoted greatly.
The City of Seoul not only provides an excellent venue for our
professional meeting, but also is an ideal location for attendees
to bring their families. A variety of interesting tours will be
offered so attendees and their companions can experience Seoul
and the surrounding region to the full. City Tours are the most
convenient and comfortable way to explore cities. The major
4 Welcome from the General Chair sights and attractions of big cities are presented on a single
tour. Nestled around the Han River is the Korean capital Seoul,
a city of old and new. With thousands years of history, it has well
preserved royal palaces, historical relics, and cultural treasures,
yet state-of-the-art facilities and infrastructures as well. The
Seoul City Tour bus runs a course that covers major points of
interest in Seoul. Seoul has been the capital of Korea for about
600 years. Seoul has developed into a bustling metropolis, acting
as the hub for political, economic, social, and cultural matters.
The Han River runs through the heart of the city. The river divides
the city in two; the northern part of the city is a focal point for
culture and history, while the southern part is well known for its
business district. In Seoul you can find ancient palaces and Royal
Shrines of the Joseon Dynasty, as well as modern architectures
and historical places such as Seoul World Cup Stadium, 63 CITY
building, Insa-dong, Itaewon, Namdaemun and Dongdaemun
Markets.
On behalf of the organizing committee, I encourage you to
make plans now to attend the 60th exciting NSS conference of
the IEEE Nuclear and Plasma Sciences Society. I look forward to
welcoming you to Seoul in October 2013 for the NSS-MIC-RTSD.
Hee-Joung Kim
2013 NSS/MIC/RTSD General Chair
Welcome from the General Chair 5
Kyeong-Min Kim
Christina Sanders
Registration and Fees
P
re-registration is advisable to save time and money, and
to ensure your registration package will be available for
collection when you arrive. The only registration method
available is through the conference web site, as it places your
details directly into our database, and where you can pay by
Visa or MasterCard through our secure web server. Checks or
money orders must be paid in U.S. dollars and be drawn on or
paid through a bank. Wire transfers will be accepted only under
special circumstances, and will be charged a $50 service fee. For
wire transfer information please see below.
NOTE: Registration and payment must be received by October
11, 2013 to qualify for reduced registration, lunches, tours,
dinners, and short course fees.
Electronic Registration
Only electronic registration is accepted. Click on the Conference
Registration link at: http://www.nss-mic.org/2013 and follow
the instructions. You may update an existing registration at
http://www.conwerk.net/secure/conreg_ieee2013/.
An acknowledgement of your registration will be sent upon its
receipt and payment. Please address any questions via e-mail
to [email protected] (Attn: 2013 IEEE NSS/MIC/RTSD) or by
phone.
On-Site Registration
All on-site registration will be performed via the online
registration page. If you choose to register on-site, you must first
register yourself online. You may do this via any computer with
internet access. There will be computers near the registration
desk that you may use to register. Next, proceed to the “Onsite Registration” booth of the Registration desk where you
will obtain your nametag, conference bag, and any tickets you
have purchased. A nametag is required to attend all conference
events, so you must visit the Registration desk after you have
electronically registered.
NOTE: Checks and money orders WILL NOT be accepted on-site.
Payment on-site must be made via credit card or cash.
Badge Policies
All badges and conference materials must be picked up at
the Registration desk. For security purposes, all attendees are
6 Registration and Fees required to wear their badge for entry into session rooms. It is
your responsibility to ensure that you have your badge at all
times.
Attendee Badges
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Access into all scientific sessions
Access to the Conference Reception and Exhibitor Reception
Access to the Exhibit Hall and Poster Sessions
Access to tours and meals for which tickets have been
purchased
Companion Badges
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Access to tours and meals for which tickets have been
purchased
Access to the Conference Reception and Exhibitor Reception
Registration Hours at the Conference
The IEEE Registration Desk will be located in the lobby on the 1st
Floor of COEX.
Registration and general information will be available during the
following times at the Registration Desk.
Friday, October 25
17:00-20:00
Saturday, October 26
07:30-09:30
15:30-18:30
Sunday, October 27
07:30-18:30
Monday, October 28
07:30-18:30
Tuesday, October 29
07:30-18:30
Wednesday, October 30
07:30-18:30
Thursday, October 31
07:30-17:00
Friday, November 1
07:30-12:00
Saturday, November 2
07:30-09:00
Conference Registration Fees
By
Oct. 11
After
Oct. 11
IEEE Member1
$675
$775
Non-IEEE Member
$825
$925
IEEE Student1,2
$260
$300
Non-IEEE Student2
$350
$435
One Day Only3
$300
$300
IEEE Retired/Unemployed1
$195
$260
IEEE Life Member1,4
No Charge
No Charge
Continuing Education Program Only
No Charge
No Charge
1 IEEE member number required at registration.
2 Proof of student status required at registration.
3 Valid for one day only. Multiple day tickets are not allowed – if more than one day,
full registration will be charged.
4 IEEE Life Members must contact the Registration Chair (nssmic.regchair@gmail.
com) prior to registering to obtain their complimentary registration.
Registration and Fees 7
Luncheon/Dinner Fees
By
Oct. 11
After
Oct. 11
NSS Luncheon (Mon., Oct. 29)
$35
$45
RTSD Luncheon (Tue., Oct. 30)
$35
$45
MIC Dinner (Fri., Nov. 2)
$70
$80
By
Oct. 11
After
Oct. 11
SC1 - Radiation Detection and
Measurement (2-day course)
$510
$550
SC2 - Integrated Circuits for Time and
Amplitude Measurement of Nuclear
Radiation Pulses
$310
$350
SC3 - Experimental Techniques in
Nuclear and Particle Physics
$310
$350
SC4 - Geant4 Simulation Toolkit
$310
$350
Short Course Fees
Short Course
SC5 - Medical Image Reconstruction
$310
$350
SC6 - Physics and Design of Detectors
for SPECT and PET
$310
$350
SC7 - Molecular Imaging
$310
$350
Note: IEEE Members receive a $60 discount on Short Course fees.
Cancellation and Refund Policy
All cancellation requests (partial or full) must be received in writing
by October 18, 2013 for consideration. Approved refunds (less a
$50 administrative fee) will be issued after November 30, 2013. No
refunds will be issued for requests after October 18, 2013.
IEEE Membership
An IEEE Membership Desk will be located in in front of the
Registration Desk. Staff will be available to answer questions
about membership benefits.
Conference attendees who paid non-member registration fees
are eligible for a $100 discount towards a regular (non-student)
IEEE 2014 membership that also includes free membership in
NPSS -- all courtesy of NPSS. Students joining at the conference
can receive a year’s free membership by providing a statement
from their mentor that they are full-time students.
Online access to the Transactions on Nuclear Science and
Transactions on Plasma Science journals, as well as the NPSS
newsletter is included with NPSS membership. Please visit the
IEEE Membership Desk to take advantage of these offers.
Note that new membership obtained at the Conference does not
provide eligibility for reduced IEEE member registration fees.
8 Registration and Fees Ralf Engels
Seong Jong Hong
General Information
Hotel and COEX Convention Center
The 2013 IEEE NSS/MIC/RTSD will be held at COEX Convention
Center which is a business and cultural hub located in the heart of
Gangnam, Seoul’s business district. It is a popular entertainment
destination in Seoul for both domestic and foreign visitors, and
welcomes an average of 150,000 people each day. Asia’s largest
underground mall, three-five star hotels nearby, two premier
office towers, a department store, a subway station, an airport
terminal, and more are all located at COEX. As COEX is also
Korea’s top business event destination, it is a four-floor meetings
venue with over 450,000m2 of total floor space. There are over
200 exhibitions and 2,000 conferences each year.
Twenty hotels near the venue provide discounted rates
for attendees in various options. The discounted rates are
selected when booking through the conference website. The
primary conference hotel is ‘COEX Intercontinental Hotel’. More
information is available on our web site (http://www.nss-mic.
org/2013). Rooms will be reserved on a first-come, first-served
basis. Early booking is highly recommended.
Conference Web Site
Information for the latest conference program: NSS, MIC, RTSD,
as well as Workshops, Short Courses, and Tours can be found at
http://www.nss-mic.org/2013.
Transportation to the Convention Center
from the Airport
From Incheon International Airport
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Airport Limousine Bus (No. 6006)
•• Fare: KRW 9,000 (Adult) / KRW 7,000 (Child)
•• Time to destination : 65-80 min. / Bus Stop: 5A, 11B
City Air Limousine Bus (CALT Limousine)
•• Time to destination: 65-80 min. / Bus Stop: 4A, 10B
KAL Limousine Bus
•• Time to destination: 65-80 min. / Bus Stop: 4B, 11A
Subway
Airport Railroads (AREX) connect Incheon International
General Information 9
Airport to Gimpo International Airport. If you choose to
travel to COEX by AREX, you will need to transfer at the
following 3 stations:
•• (AREX) Incheon Int’l Airport - Gimpo Int’l Airport - (Line 9)
•• Express Terminal Station - (Line 3)
•• Seoul National University of Education - (Line 2) COEX
AREX’s service is provided by both commuter and express
trains. For a detailed timetable, please refer to the website at
http://www.arex.or.kr/jsp/eng/time/time_table.jsp.
••
Taxi
•• Fare: KRW 70,000 (Regular Taxi) / KRW 100,000 (Deluxe
Taxi)
•• Time to destination: 70 min. / Taxi Stands: 4D, 8C
From Gimpo International Airport
••
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City Air Limousine Bus (CALT Limousine)
•• Time to destination: 44-55 min. / Bus Stop: Platform 6
(International Arrivals)
Subway
Use the following route that includes two transfers:
•• Gimpo Int’l Airport - (Line 9)
•• Express Terminal Station - (Line 3)
•• Seoul National University of Education - (Line 2) COEX
Taxi
•• Fare: KRW 40,000 (Regular Taxi) / KRW 80,000 (Deluxe
Taxi)
•• Time to destination: 50 min.
Parking
Self-pay parking is available at the COEX Parking lot at the
basement, however it is extremely limited. So, we recommend
using public transportation. If you choose to drive, use Tan
Stream parking for more convenience.
Message Board
A message board will be set up near the Conference Registration
desk. Any last minutes changes in the scientific program and other
important information will be posted on the message board.
Computer Access
Computers, printers, and technical support will be located
in the lobby on the 2nd floor of the north wing. The facility is
intended for use by all attendees to carry out final editing of
their presentations and papers and to retrieve e-mail. Microsoft
Office 2010 will be loaded on all computers. In addition, wireless
hotspots will be available in selected areas.
Smoking Policy
The conference site has adopted a strict no-smoking policy in all
the conference and exhibit areas.
10 General Information Electronic Recording Policy
Photography and audio or video recording are strictly prohibited
during all oral and poster sessions.
Social Activities
The conference program includes a number of social activities
open to all attendees, some of which are complimentary.
The table below is the list of lunches, dinners, and receptions
(including any applicable fees) that are scheduled during the
conference. Please note that the Conference Reception is a
buffet dinner event and the Exhibitors Reception is a drink and
finger-food event.
Event
Date/Time
Location
Fees
Welcome Reception
Sun. Oct. 27
18:00-19:30
Hall E5 & E6
Free
NSS Luncheon
Mon. Oct. 28
12:00-13:30
Hall E5 & E6
$35/$45
RTSD Luncheon
Tue. Oct. 29
12:00-13:30
Fradia
Restaurant
$35/$45
Exhibitor Reception
Tue. Oct. 29
19:00-21:00
Hall B2
(Exhibit Hall)
Free
Conference Reception
Wed. Oct. 30
19:00-21:00
Grand Ballroom
Free
MIC Dinner
Fri., Nov. 1
19:00-21:00
Harmony Ballroom
(COEX Intercont.
Hotel)
$70/$80
General Information 11
Merry Keyser
Mi Young Kim
Companion Program
S
eoul, as the capital city of Korea, acts as the political,
cultural, commercial, and financial center. Seoul is also a
historical city, the ancient capital of the Chosun-Dynasty for
500 years, with many tourist attractions, including old palaces
and gardens. In Seoul, the past and the present meet together
and coexist in harmony. During the Congress, you will be able to
enjoy both the flavor of the traditional Korean culture and the
excitement of a sprawling metropolitan city.
Seoul is the world's 10th-largest city. Its past and present coexist
in a fascinating way; centuries-old palaces, city gates, shrines,
gardens, and priceless art collections attest to the city's illustrious
past, while the glistening facades of soaring skyscrapers and the
bustling traffic represent its vibrant present.
Located along the Han River, Seoul has grown into a teeming
metropolis with a population of more than 12 million. Over
the years, the capital city of Korea has greatly expanded in the
process of urbanization and industrialization and continues to
grow as the thriving center of the country's political, economic,
cultural and educational activities.
All tours will depart from and return to the Companion Program
Booth in the COEX Convention Center. This meeting area,
close to the Registration Desk, will be available as a lounge for
all registered companions to gather during the conference.
Information about Korea and the Seoul area will also be available
for individuals and families to plan trips and excursions other
than those offered in the Companion Program.
This will be an exciting program, and we look forward to seeing
you in Seoul. Please contact either of us for more information.
Mi Young Kim
Companion Program Co-Chair
12 Companion Program Merry Keyser
Tour Number and Name
Date
Time
Fees
T1 - Gyeongbok Palace &
Bukchon Hanok Village
Mon. Oct. 28
08:00-12:00
$60
T2 - Tea Ceremony Experience
& Hanbok Wearing
Mon. Oct. 28
14:00-17:00
$60
T3 - Deoksu Palace & Insadong
Tue. Oct. 29
08:00-12:00
$60
T4 - Kimchi Making & Jogye
Buddhist Temple
Tue. Oct. 29
14:00-18:00
$60
T5 - Korean Folk Village &
Suwon Hwasung
Wed. Oct. 30
08:00-17:00
$90
T6 - Changdeok Palace & N
Seoul Tower
Thu. Oct. 31
08:00-12:00
$60
T7 - Handcraft Making
Experience
Thu. Oct. 31
14:00-17:00
$60
T8 - The National Museum of
Korea
Fri. Nov. 1
08:00-12:00
$60
T9 - Tea Ceremony Experience
& Hanbok Wearing
Fri. Nov. 1
14:00-17:00
$60
Please note:
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••
Individual tours are subject to cancellation and refund of
tour fees if an insufficient preregistration is achieved prior
to October 11, 2013. The fees in the tours will be set for early
registration opened in July. There may be limited late or onsite registration for an additional $15 fee.
Tour programs and hours may be modified due to last
minute logistics issues.
Please notify us of participants with special needs or dietary
requirements. Lunch will only be included on Full-day tours.
Each tour will have an experienced English-speaking tour
guide and also a hostess from the IEEE Companion Program
committee.
T1 - Gyeongbok Palace & Bukchon Hanok Village
Monday, October 28, 08:00-12:00
Fees: $60
Gyeongbok Palace
Built in 1395 as the main palace of the Joseon Dynasty (13921910) by the dynasty’s founder King Taejo, Gyeongbok Palace
is the most comprehensive and grandest of the five palaces
of the period. The premises were destroyed by fire during the
Imjinwaeran War (Japanese Invasion, 1592-1598). However,
all of the palace's 7,700 rooms were later restored under the
leadership of Heungseondaewongun during the reign of King
Gojong (1852-1919).
Bukchon Hanok Village
Surrounded by Gyeongbokgung Palace, Changdeokgung
Palace and Jongmyo Shrine, Bukchon Hanok Village is home
to hundreds of traditional houses called 'hanok' that date back
to the Joseon Dynasty. The name, 'Bukchon,' which literally
translates to 'northern village,' came about as the neighborhoods
Companion Program 13
that the village covers lie to the north of the two significant
Seoul landmarks, Cheonggyecheon Stream and Jongno
T2 - Tea Ceremony Experience & Hanbok Wearing
Fees: $60
Tea Ceremony (Dado)
Dado means the etiquette of drinking tea. For a long time in
Korea, tea has been used to provide not just refreshment but
has been used to dispel muddled thoughts and induce selfdiscipline for those that were studying or meditating.
Dado is a simple method of making good tea. Even though this
is simple work, the Korean culture has developed Dado into an
art. Dado involves using the correct type of heat source, boiling
the water, making and of course drinking the tea.
T3 - Deoksu Palace & Insadong
Tuesday, October 29, 08:00-12:00
Fees: $60
Deoksu Palace
Deoksu Palace is famous for its elegant stone-wall road. It is
also the only palace that sits alongside a series of western
14 Companion Program style buildings that add to the uniqueness of the surrounding
scenery. Deoksu Palace originally belonged to Wolsandaegun
(1454-1488). It became a proper palace when Gwanghaegun
(1575-1641) ascended the throne and gave the palace the
name Gyeongun Palace in 1611. Afterwards, the name was then
changed back to its original title of Deoksu Palace.
Insadong
Insadong has been at the heart of the nation’s capital for 600
years and it has been the center of culture since the time of
the Joseon Dynasty (1392-1910). Insadong was once known as
‘Mary’s Alley,’ and is a favorite shopping spot among foreigners.
Over forty percent of the nation’s antique stores are in Insadong.
There are a variety of art works from earthenware of the Unified
Silla Era to white pottery of the Joseon Era
T4 - Kimchi Making & Jogye Buddhist Temple
Tuesday, October 29, 14:00-18:00
Fees: $60
Kimchi Making
Join the tour for a hands-on experience in making Kimchi. Kimchi
is a traditional fermented vegetable dish which is the most basic
side dish at every Korean meal. It is not only fun but an excellent
opportunity to learn about Korean culture and dietary life. You
will also take home a sample of your work.
Jogye Buddhist Temple
Jogye Temple as the representative temple of the Korean Buddhism
is the place of Bodhisattva compassionated mind to seek living all
together in the world. Its main hall Great Hero Hall is always open
to welcome anyone of various nationalities and religious faiths that
would come to pray or participate in worship. It was established
in1910 and called Gakhwang temple. In 1954 it was renamed as
Jogyesa the only traditional temple located inside the boundary of
four gates built during Chosun Dynasty in Seoul.
T5 - Korean Folk Village & Suwon Hwasung
Wednesday, October 30, 08:00-17:00
Fees: $90
Korean Folk Village
Set in a natural environment occupying approximately 243
acres, visitors can experience the natural atmosphere with over
260 traditional houses reminiscent of the late Joseon Dynasty,
including various household goods from different regions. All
these features have been relocated and restored to provide
visitors with a broad understanding of Korean food, clothing,
and housing style of the past.
Suwon Hwasung [UNESCO World Heritage]
Hwasung Fortress is an impressive structure from the latter part
of the Joseon Dynasty (1392-1910) and the official fortress of
Suwon-si, Gyeongg-do. The fortress (constructed from 1794 to
1796) was built as a show of the King’s filial piety towards his
father Jangheonseja and to build a new pioneer city with its own
economic power.
T6 - Changdeok Palace & N Seoul Tower
Thursday, October 31, 08:00-12:00
Fees: $60
Changdeok Palace [UNESCO World Heritage]
Changdeok Palace was the second royal villa built following the
construction of Gyeongbok Palace in 1405. It was the principal
16 Companion Program palace for many of the Joseon kings and is the most wellpreserved of the five remaining royal Joseon palaces. The palace
grounds are comprised of a public palace area, a royal family
residence building, and the rear garden. Known as a place of rest
for the kings, the rear garden boasts a gigantic tree that is over
300 years old, a small pond, and a pavilion.
N Seoul Tower
“N” from N Seoul Tower stands for New Namsan and Natural
Seoul Tower. Most visitors ride the Namsan cable car up the
mountain and then walk to the tower. The tower features a gift
shop and restaurants on the ground floor. It is a popular place to
go on clear days to see most of Seoul.
T7 - Handcraft Making Experience
Fees: $60
Korea has a long and proud history of excellence in arts and
crafts, so there is no better way to remember your time in Korea
than by taking home one of these lovingly-crafted, traditional
pieces. We will learn how to make a traditional Korean mask
which is made of paper materials.
The Korea House
The Korea House was opened in 1981. It is a traditional Korean
building that introduces the culture and lifestyle of Koreans,
where you can experience traditional architecture and a classical
atmosphere. The building was built in the style of the Joseon
Dynasty's Jagyeong-jeon building at the Gyeongbok Palace. It is
the only building built in the traditional architectural style. You
will feel its antiquity as you enter the building.
T8 - The National Museum of Korea
Friday, November 1, 08:00-12:00
Fees: $60
The National Museum of Korea is the largest museum in Korea
and houses precious Korean cultural assets that silently tell the
story of Korea’s fascinating history, from ancient days to the
modern era. The museum, in turn, is close to Yongsan Family Park,
a wooded grassland with a pond that serves as a natural habitat
for various species of birds, as well as over 80 different kinds of
trees. The War Memorial of Korea is located approximately 1km
from Yongsan Station toward Samgakji. It displays a daunting
array of collections and wartime relics.
T9 - Tea Ceremony Experience & Hanbok Wearing
Friday, November 1, 14:00-17:00
Fees: $60
Same as T3 - Tuesday.
18 Companion Program Presentation & Poster Guidelines
Oral Presentation Instructions
Presentation files must be in Windows-compatible PowerPoint
or PDF format. Note that the laptops used for the presentations
use Windows 7 with PowerPoint 2010 and the latest version of
Acrobat Reader. The file for your talk must be loaded onto the
central file server no later than 2 hours prior to the start of your
session. For a talk in the first morning session, the file must be
loaded the previous day. To do this, take the file, preferably on a
USB flash drive, to the Computer Room in the South Lounge, and
one of the computer room staff members will assist you. Note
that presenters will not be permitted to use their own laptops.
Please check your presentation carefully before you leave the
Computer Room.
Poster Presentation Instructions
All posters will be in the Exhibit Hall (Hall B). The poster panels
are 95cm x 237cm, but the actual space where you can place
your poster is 90cm x 150cm. Adhesive tape to attach your poster
to the panel will be available in the poster room. Your panel will
be labeled with the session and number of your poster, also
referred to as your ‘Paper ID.’
Presenting authors are expected to be present at their poster
during their session. Papers whose authors are not present at
their poster during their assigned session are not eligible for
publication in the Conference Record. Session chairs will verify
your attendance during the assigned session.
The NSS, MIC, and RTSD posters will share the same space with
their respective display times shown in the table below. It is
recommended that poster authors display their posters for the
entire allotted period. At a minimum, the poster must be in place
no later than 2 hours prior to the start of the assigned poster
session. After that time the poster board will be labeled as noshow and no late installation will be allowed.
NSS, RTSD
MIC
Install
Remove
Sunday, October 27
19:00-20:00
18:00-20:00
08:00-10:00
Saturday, November 2
12:00-14:00
Note: Posters that are not removed on time will be subject to
disposal.
Presentation & Poster Guidelines 19
Yong Choi
Publications
Conference Record
T
he Conference Record (CR) is the official repository for
manuscripts presented at the 2013 Nuclear Science
Symposium and Medical Imaging Conference and will
be on DVD-ROM, complimentary to all registered conference
attendees, and submitted to the IEEE Xplore for publication. All
CR manuscripts will be made available online at http://www.
nss-mic.org/2013/ConferenceRecord before the DVD-ROMs are
mailed out.
The approved word processor templates, available in PDF, MS
Word and LaTeX format can be downloaded from http://www.
nss-mic.org/2013/Public/Publications/templates.htm.
All manuscripts submitted to the IEEE must be in IEEE Xplorecompatible PDF format.
To assist authors in meeting this requirement, IEEE has
established a web based service called “PDF eXpress.” We
strongly suggest that you use this service to create your PDF
files. Manuscripts that are not IEEE Xplore-compatible will not
be accepted in the Conference Record.
In order to ensure a timely release of the DVD-ROM, please
follow this procedure for the Conference Record manuscript
submission:
1. Produce IEEE Xplore-compatible PDF file using PDF
eXpress
The IEEE PDF eXpress service will be available for the NSSMIC authors between Oct. 1, 2013 and Nov. 15, 2013. You
need to enter nssmic13x as the conference ID, and set up an
account on that system. You can upload your word processor
file to the web site and have it converted to PDF. Shortly
after your upload, an electronic proof in PDF format will be
generated and emailed to you. You need to retrieve this IEEE
Xplore-compatible file either from the PDF eXpress web site
or from your email. You can also use this service to verify your
own PDF file for Xplore-compatibility. Detailed instructions
on the PDF eXpress service are available at http://www.nssmic.org/2013/Public/Publications/PDFeXpress.html.
PDF eXpress is NOT the final destination for your manuscript.
You must submit your manuscript to the Guest Editor
following the step below.
2. Submit the Xplore-compatible PDF file and the IEEE
Copyright Form
20 Publications Log on to the conference web site and follow the menu “My
Submissions” to the abstract submission page. You will see
both links for uploading your manuscript and submitting
the copyright form electronically. Follow the instructions
on the web site to complete both tasks. Your PDF file will be
checked for Xplore-compatibility. Non-Xplore-compatible
files will not be included in the DVD-ROM.
If you are not authorized to submit the IEEE Copyright Form,
please start the approval process well before the submission
deadline.
The deadline for the Conference Record manuscript
submission is November 15, 2013.
All manuscripts submitted through the conference web site
will be made available immediately through the “Conference
Record” web link. However, only those that meet the following
requirements will be included in the DVD-ROM:
••
••
••
••
Paper (oral or poster) has been presented at the conference;
Manuscript conforms to the page layout requirements
specified in the online templates;
PDF file is IEEE Xplore-compatible;
PDF file and the electronic copyright form are received no
later than the Nov.15 deadline.
For further information regarding the Conference Record,
contact:
Guest Editor for the Conference Record
Yong Choi
Sogang University
Phone: +82-2-705-8910
E-mail: [email protected]
Transactions on Nuclear Science (TNS)
Additionally, papers presented at the conference that contain
important information of lasting value may be submitted for
review and publication in the Transactions on Nuclear Science
(TNS). The TNS is a premier peer-reviewed journal with a significant
distribution within the nuclear science and medical imaging
communities. TNS is not the conference record, and only those
papers that pass the review process and are in the fields of interest
to TNS will be published. Prospective authors should consult the
TNS page at http://ewh.ieee.org/soc/nps/TNS.htm
for
a description of the publication and manuscript
preparation
requirements.
TNS
discourages
the
submission of progress reports and manuscripts that
are more suitable for distribution as an institution’s
internal document. We expect each manuscript to be
cast in the context of the state of the art of its field
(including
appropriate
motivation
for
the
work),
present
a
complete
description
of
the
work
performed, and to present a set of conclusions
supported by the measured and/or calculated data. The paper
should be sufficiently complete that others with comparable
equipment could repeat the work.
Publications 21
Authors submitting to TNS should expect to be solicited to
serve as reviewers of other papers. Please accept as many
solicitations as you are able to handle and remember to return
your reviews in a timely fashion. TNS requires at least two
reviewers for each paper and the speed of the review process
ultimately depends on your cooperation. TNS relies on this most
important professional service you, the authors, provide to the
community.
TNS is published throughout the year, and you can submit your
manuscript to TNS at any time. For instructions on TNS manuscript
submissions, please visit the IEEE’s on-line peer review system
ScholarOne ManuscriptsTM (http://mc.manuscriptcentral.
com/tns-ieee). TNS suggests that authors limit their papers to
8 pages, but that limit is quite flexible and exceptions can be
made.
When submitting a paper to TNS at the Manuscript Central web
site, please indicate the “Type” as follows: Papers originating in
the MIC should be marked as “Imaging and Instrumentation
for Nuclear Medicine”. Papers originating in the NSS should
be marked as “Radiation Instrumentation” or “Computing,
Simulation and Software for HEP, Radiation Instrumentation &
Biomedical,” depending on the subject matter. This will ensure
that the paper is routed to the appropriate senior editor.
Special instructions for RTSD authors: So that the RTSD
papers may be collected in the August issue of TNS, RTSD papers
should be submitted by Dec. 1. RTSD papers submitted after
that date may not complete the review process by June 1, the
deadline for the August issue. Those RTSD papers that complete
the review process after June 1 will appear in later issues of TNS
and be identified as originating in the RTSD Workshop. When
submitting a paper to TNS at the ScholarOne Manuscripts web
site, please indicate the “Type” to be “RTSD”. This will ensure that
the paper is routed to the appropriate senior editor and helps us
aggregate the RTSD Workshop papers.
For further information regarding TNS, contact:
TNS Editor in Chief
Paul Dressendorfer
Sandia National Laboratories (retired)
Tel: +1 505 292 5965
TNS Senior Editors
Radiation Instrumentation (NSS & RTSD)
Zane Bell
Oak Ridge National Laboratory
Tel: +1 865 574 6120
Nuclear Medical and Imaging Sciences (MIC)
Joel Karp
University of Pennsylvania Health System
Tel: +1 215 662 3073
22 Publications Transactions on Medical Imaging (TMI)
Authors of medical imaging papers may alternatively choose
to submit their manuscripts to the IEEE Transactions on
Medical Imaging through ScholarOne Manuscripts™ (http://
mc.manuscriptcentral.com/tmi-ieee). For further information
regarding the IEEE Transactions on Medical Imaging, contact:
TMI Editor in Chief
Milan Sonka
The University of Iowa
Tel: +1 319 335 6052
Comparison of Requirements
The value of the Conference Record (CR) is chiefly accrued by
the immediate and timely release of the information, which
excludes the possibility of peer-review for manuscript content.
It is possible that a similar (or even the same) article can be
submitted to both the Conference Record and the TNS. However,
the authors must keep in mind that the content of the articles
designated for TNS publication must meet the level of scrutiny
by scientific review, and publication is not guaranteed for the
TNS submission. The CR and TNS are two separate publications.
Submission to one does not imply submission to the other.
Conference Record
(CR)
Transactions on Nuclear
Science (TNS)
Page layout
Same as TNS, but
without running
headers and footers
Standard IEEE
Transactions and Journal
format
Copyright
form
Required, electronic
submission
Required, electronic
submission
Deadline
November 15, 2013
RTSD Papers: Dec. 1 , 2013
(strongly suggested)
Others: None
Peer reviewed
No
Yes
Color figures
Free and encouraged
At author’s expense for
printed version, free for
online version
Page Limit
8 (suggested)
8 (suggested)
Availability
Online immediately,
DVD-ROM out before
end of 2013 to all
attendees
Published throughout
the year
Submission
Site
http://www.nss-mic.
org/2013/submissions
http://
mc.manuscriptcentral.
com/tns-ieee
Publications 23
Chul Hee Min
Paul Lecoq
Chan Hyeong Kim
Short Course Program
A
n excellent set of short courses will be given at the start of
the NSS/MIC programs, covering a wide range of nuclear
and medical imaging technology. All courses are one
or two days in length. Coffee and pastries will be available for
participants of the short courses at 08:00, before the first lecture
which will begin at 08:30. Lunch, refreshments, lecture notes,
and a certification of completion are also provided as part of the
short course registration fee.
Paul Lecoq
Short Course
Co-Chair
Chan Hyeong Kim
Short Course
Co-Chair
Short Course
Chul Hee Min
Short Course
Acting Co-Chair
Date
Location
SC1 - Radiation Detection and
Measurement
Sat. Oct. 26
Sun. Oct. 27
Hall E2
SC2 - Integrated Circuits for Time and
Amplitude Measurement of Nuclear
Radiation Pulses
Sat. Oct. 26
Hall E3
SC3 - Experimental Techniques in
Nuclear and Particle Physics
Sat. Oct. 26
Hall E4
Sun. Oct. 27
Hall E3
Sun. Oct. 27
Hall E4
SC6 - Physics and Design of Detectors
for SPECT and PET
Mon. Oct. 28
Hall E3
Mon. Oct. 28
Hall E4
Short Course Daily Schedule
08:00-08:30 08:30-10:00 10:00-10:30 10:30-12:00 12:00-13:30 13:30-15:00 15:00-15:30 15:30-17:00 Student breakfast
Session 1
Morning break
Session 2
Lunch
Session 3
Afternoon break
Session 4
24 Short Course Program SC1 - Radiation Detection and Measurement
Saturday, October 26, 08:30-17:00
Sunday, October 27, 08:30-17:00
Location: Hall E2
Organizer: Glenn F. Knoll, University of Michigan, USA
Instructors:
Stephen Derenzo, Lawrence Berkeley National Laboratory, USA
Valentin Jordanov, Yantel, LLC, USA
Glenn Knoll, University of Michigan, USA
Graham Smith, Brookhaven National Laboratory, USA
Lothar Strueder, Max Planck Institute, Munich, Germany
Course Description
This 2-day course provides an overall review of the basic principles
that underlie the operation of the major types of instruments
used in the detection and spectroscopy of charged particles,
gamma rays, and other forms of ionizing radiation. Examples
of both established applications and recent developments are
drawn from areas including particle physics, nuclear medicine,
homeland security, and general radiation spectroscopy.
Emphasis is on understanding the fundamental processes
that govern the operation of radiation detectors, rather than
on operational details that are unique to specific commercial
instruments. This course does not cover radiation dosimetry
or health physics instrumentation. The level of presentation is
best suited to those with some prior background in radiation
measurements, but can also serve to introduce topics that may
be outside their experience base. A copy of the 4th edition
(2010) of the textbook “Radiation Detection and Measurement”,
by G. Knoll, and a set of course notes are provided to registrants.
Course Outline
•• Gas-Filled Detectors
•• Scintillation Counters
•• Semiconductor Detectors
•• Pulse Processing for Radiation Detectors
•• Recent Detector Developments and Summary
Instructors’ Biography
Stephen E. Derenzo is a Senior Scientist at the Lawrence Berkeley
National Laboratory and a Senior Staff Physicist and Head
in Department of Radiotracer Development and Imaging
Technology at Lawrence Berkeley National Laboratory. He and
his colleagues constructed two pioneering positron emission
tomographs and developed scintillation detectors that provide
high spatial resolution, depth-of-interaction information, and
compact integrated circuit readout. He currently heads a project
that has discovered many new high-performance inorganic
scintillators for gamma ray imaging and spectroscopy.
Valentin Jordanov is a Senior Member of IEEE and President
of Yantel, LLC, Los Alamos. He has provided R&D services and
has designed instruments for companies such as Canberra
Industries, Amptek and Thermo Fisher Scientific. He is involved
with teaching and training at UC Berkeley, University of Tokyo
and the IAEA. He has 10 issued patents in the field of Nuclear and
X-ray electronics.
Short Course Program 25
Glenn F. Knoll is Professor Emeritus of Nuclear Engineering and
Radiological Sciences at the University of Michigan. He joined
the Michigan faculty in 1962, and served as Chairman of the
Department of Nuclear Engineering from 1979 to 1990, and as
Interim Dean of the College of Engineering in 1995-96. He is
author or co-author of over 200 technical publications, 7 patents,
and 2 textbooks. In 1999 he was inducted to membership in the
National Academy of Engineering. In 2000 he received the highest
faculty award from the College of Engineering of the University
of Michigan, the Stephen E. Attwood Award. He has served as
consultant to over 35 industrial and governmental organizations
in technical areas related to radiation measurements. He is a Life
Fellow of IEEE, was selected for the 1996 IEEE/NPSS Merit Award
and the 2007 IEEE/NPSS Radiation Instrumentation Outstanding
Achievement Award, and in 2000 was a recipient of the Third
Millennium Medal of the Society.
Graham Smith is Senior Physicist and Head of Instrumentation
Division at Brookhaven National Laboratory. He received a Ph.D.
in Physics from Durham University, England. He has worked
for the last thirty years at Brookhaven National Laboratory,
USA, on development of advanced radiation instrumentation
for experimental studies using neutrons, X-rays and charged
particles, specializing in gas-filled detectors. He is an IEEE Fellow.
Lothar Strueder is the scientific director of PNSensor GmbH
and professor at the University of Siegen. He earned his Ph.D.
in Experimental Physics at the TU Munich in 1988. His interests
generally include position-, energy-, and time-resolving
detectors for photons and particles. He is author or co-author of
more than 300 technical and scientific publications. He has been
issued 13 worldwide patents in scientific instrumentation.
SC2 - Integrated Circuits for Time and Amplitude
Measurement of Nuclear Radiation Pulses
Location: Hall E3
Organizer: Angelo Rivetti, INFN, Italy
Instructors:
Angelo Rivetti, INFN, Italy
Edoardo Charbon, Delft University of Technology, The Netherlands
Jean Francois Genat, CNRS/ IN2P3, France
Course Description
This one-day course will cover integrated circuits for processing
nuclear radiation pulses, with emphasis on circuit architectures
that allow the simultaneous extraction of the time and energy
information associated to a physical event. Key topics covered
in the lectures are front-end circuits for radiation detectors,
high performance discriminators, analog-to-digital and timeto-digital converters, high speed waveform samplers and
monolithic CMOS systems.
The course will mainly benefit two types of attendees. The first
is the electronics engineer/physicist who works at the design of
integrated circuits for the readout of nuclear radiation detectors
and needs to become more acquainted with the key issues
26 Short Course Program encountered in the field and the circuit techniques devised to
address them. The second is the project manager/project leader
who intends to improve her/his knowledge of the discipline in
order to interact more effectively with design teams developing
a circuit for a given application. To take full profit of the lectures,
the attendee should have a basic knowledge of linear integrated
circuit analysis and of amplifiers and digital gates implemented
in CMOS technologies. However, the material will be organized
so that also students lacking such prerequisites will get at least a
general overview of the state of the art in the field.
The morning sessions will focus on the basics of pulse processing
for time and energy measurement and the design of front-end
amplifier, discriminators and ancillary circuits. The afternoon
sessions will concentrate on systems for time and amplitude
digitization.
Course Outline
1. Architectures for amplitude and energy measurements.
•• Architecture overview;
•• Pulse processing for energy and time extraction.
•• Basic building blocks in advanced CMOS technologies.
2. Front-end implementation
•• Input stages and shaper designs
•• Baseline control
•• High performance discriminators
3. Amplitude digitization
•• High frequency waveform samplers
•• ADC for radiation sensors
•• Key issues in mixed signal design
4. Time digitization
•• Time to digital converters
•• Fully integrated timing systems in CMOS technologies
Angelo Rivetti received the degree in Physics from the University
of Torino, Italy, in 1995 and the Ph.D. in Electrical Engineering
from the Polytechnic Institute of the same town in 2000. From
1998 to 2000 he conducted his research activity at CERN,
working at the implementation of radiation tolerant integrated
circuits in commercial deep submicron CMOS technologies.
From 2000 to 2001 he was assistant professor with the Faculty of
Physics of the University of Torino. In December 2001 he joined
the Italian National Institute for Nuclear Physics (INFN), where
he developed VLSI front-end circuits now in use in the ALICE
and COMPASS experiments at CERN. Since 2009, he is a senior
member of the research and technology staff of INFN in Torino.
His current interests are in the design of front-end electronics for
hybrid and monolithic pixel detectors and in the development
of low power, high resolution mixed-signal integrated circuits for
charge and time measurements in high energy physics, medical
imaging and industrial applications.
Edoardo Charbon received the Diploma from the Swiss Federal
Institute of Technology (ETH) in Zürich in 1988, the M.S. from
UCSD in 1991, and the Ph.D. from UC-Berkeley in 1995, all
in Electrical Engineering. From 1995 to 2000, he was with
Cadence Design Systems, where he was responsible for analog
and mixed-signal design automation tools. In 2000, he joined
Canesta, Inc. as its Chief Architect, leading the development of
wireless 3D CMOS image sensors. From 2002 to 2008 he was with
the Swiss Federal Institute of Technology (EPFL) of Lausanne,
Switzerland, working in the field of CMOS sensors, biophotonics,
and ultra low-power wireless embedded systems. Since 2008,
Prof. Charbon has been Full Professor and Chair of VLSI design
at TU Delft, where he leads research in high performance, low
power circuits, and systems. His research interests include highperformance imaging, quantum integrated circuits, and design
automation algorithms
Jean Francois Genat is a research engineer at CNRS/ IN2P3 Paris,
France. He has been active in the field of electronics and signal
processing for High Energy Physics and Astrophysics since 1975.
He addressed in particular the problem of high resolution time
encoding introducing in 1984 digital delay lines integrated in
ASICs for the Large Electron Positron collider experiments at
CERN, leading to large scale sub-nanosecond timing systems.
He is currently involved in the readout of Micro-Channel Plate
photo-detectors for which he designs GHz sampling analog
memories ASICs aiming to achieve picosecond timing resolution.
SC3 - Experimental Techniques in Nuclear and
Particle Physics
Location: Hall E4
Organizer: Stefaan Tavernier, Vrije Universiteit Brussel, Belgium
Instructors:
Stefaan Tavernier, Vrije Universiteit Brussel, Belgium
Albert De Roeck, CERN, Switzerland
Karl Giboni, Shanghai JiaoTong University, China
Course Description
This one-day course provides an introduction to the design and
use of instruments for the detection of subatomic particles. The
level of presentation will also be suited for people with little prior
background in particle detection. The course starts with a brief
overview of the interactions of energetic subatomic particles
in matter, and a brief review of the basic detector techniques,
including photodetectors. The main part of the course is devoted
to a review of detectors, and a review of detector requirements,
in three important areas where particle detectors are used: in
high-energy physics, in the search of dark matter particles, and
in nuclear medicine. Emphasis will mainly be on why detectors
are the way they are, rather than on technical details of how to
build them.
Course Outline
•• Interactions of subatomic particles in matter
•• Overview of basic detector principles
•• Photodetectors
•• Detectors for high-energy physics
•• Detectors for direct observation of dark matter particles
•• Detectors for nuclear medicine
28 Short Course Program Instructors’ Biography
Stefaan Tavernier is the author of the book "Experimental
techniques in nuclear and particle physics". This book is the
result of a number of courses he has been teaching to physics
students and engineering students during many years. His
personal research interests are in high-energy physics and
instrumentation for nuclear medicine.
Albert de Roeck is a senior research scientist and staff member
of CERN. He is also a professor at the University of Antwerp
(Belgium) and a visiting professor at the University of Durham
(UK). He is now one of the leaders of the physics program of the
CMS experiment at the LHC.
Karl Giboni is an expert in detector development. He started as
a high energy physicist and is for many years devoting all his
time and energy to the development of instrumentation for the
detection of dark matter. He is now professor at the Shanghai
JiaoTong University and takes part in PANDA-X, a liquid xenon
TPC operated in the new Jin Ping underground laboratory in
Sichuan province, China.
Location: Hall E3
Organizer: Maria Grazia Pia, INFN, Italy
Instructors:
Maria Grazia Pia, INFN, Italy
Steffen Hauf, XFEL, Germany
Sunanda Banerjee, Saha Institute, India
Course Description
Geant4 is a software toolkit for the simulation of the interaction
of particles with matter, developed by an international
collaboration of physicists, engineers and computer scientists.
Its application areas include high energy physics experiments,
nuclear physics, astrophysics and astroparticle physics, space
science, medical physics and medical imaging, radiation
protection, and education. It exploits advanced software
engineering techniques and the Object Oriented technology to
achieve transparency of the physics implementation, as well as
openness to extension and evolution. A Geant4 reference paper
is the most cited publication in the Nuclear Science & Technology
and Instrument & Instrumentation categories, which jointly
encompass more than 600000 scholarly publications (source:
Web of Knowledge™, publication database since 1970).
Geant4 encompasses a wide set of tools for all the domains of
detector simulation, including Geometry modeling, Detector
Response, Run and Event management, Tracking, Visualisation
and User Interface. An abundant set of Physics Processes
handle the diverse interactions of particles with matter across
a wide energy range, as required by Geant4 multi-disciplinary
nature; for many physics processes a choice among different
models is available. The Geant4 source code, libraries and user
documentation are freely available. Further information can be
found in Geant4 User Documentation.
This Short Course provides an overview of Geant4 capabilities
and illustrates the major features available in the toolkit to
simulate an experimental scenario. Special emphasis is placed
in presenting a methodological approach to developing
and validating Geant4-based simulations for experimental
applications. The course offers an excellent opportunity to get
directly in touch with Geant4 developers and experts.
To best profit from the course, some basic knowledge of the C++
programming language and of the object oriented technology
is recommended.
Course Outline
•• Overview of Geant4
•• Geant4 vision: scope, fundamental concepts
•• Geant4 architecture
•• Overview of Geant4 simulation capabilities
•• Overview of experimental applications
•• Introduction to Geant4-based simulation
•• Refresher of basic concepts of Object Oriented Programming
and C++ features (optional)
•• Concepts of a Geant4 user application
•• Elements of Geant4 kernel
•• Modeling an experimental set-up with Geant4
•• Geant4 physics
•• Overview of additional capabilities
•• Geant4 in practice
•• How to learn more
•• Conclusion and outlook
Maria Grazia Pia is a physicist at INFN Genova, Italy. She has
been a member of the Geant4 Collaboration since its R&D
phase and has been contributing for more than 15 years to
Geant4 physics design, development and validation. She has
lead various projects within Geant4, including Low Energy
Electromagnetic Physics, and R&D for applications in high energy
physics, astrophysics and medical physics. Currently she leads a
project aiming to open new frontiers to Monte Carlo simulation
for particle transport as a quantitative science. She launched
the Geant4 Training Programme and is active in the field of
technology transfer. Her Geant4-related activity is documented
in several publications. Maria Grazia Pia is Associate Editor of
IEEE Transactions on Nuclear Science.
Steffen Hauf is a physicist at the European XFEL, Hamburg,
Germany. He currently works on calibration software and
simulation tools for detectors at this intense X-ray light source.
Previously, he has worked on Geant4-based cosmic-ray
background simulations for space-based X-ray observatories. He
has developed a new radioactive decay package for Geant4 and
is involved in Geant4 R&D for physics modeling and validation.
Sunanda Banerjee is a professor at the Saha Institute of Nuclear
Physics, Kolkata, India. After spending several years as a Senior
Professor at Tata Institute of Fundamental Research, Mumbai
(India) and as an application scientist at Fermilab, Batavia
(USA), he has set up a high energy physics group at Kolkata to
30 Short Course Program participate in the CMS experiment at CERN, Geneva. He has
been one of the main architects of offline software for the L3
experiment at the LEP and the CMS experiment at the LHC. He
has been a member of the Geant4 collaboration and one of
the main persons to introduce Geant4 in the simulation of the
CMS detector. He has over 500 scientific publications and has
performed experiments at CERN, Fermilab and KEK, Japan.
Location: Hall E4
Organizer: Jinyi Qi, University of California-Davis, USA
Instructors:
Michel Defrise, Vrije Universiteit Brussel, Belgium
Frederic Noo, University of Utah, USA
Jinyi Qi, University of California-Davis, USA
Course Description
Modern medical imaging systems can probe noninvasively
anatomical and functional information in vivo. However, the
measured raw data are related to the underlying image through
a convoluted transform. Image reconstruction is essential to
translate the raw data to meaningful images. Over the past
decades, many advances have been made in both analytical
and iterative reconstruction techniques. Together with new
instrumentation and computer hardware, these developments
have stimulated growing imaging applications in clinical and
biomedical research.
This course will provide an overview of tomographic image
reconstruction methods. It will start with fundamental issues
of image reconstruction and classical theories in computed
tomography. It will then describe analytical image reconstruction
algorithms in 2D parallel-beam and 3D cone-beam geometries.
The third part of the course will cover iterative reconstruction
techniques. It will review the maximum-likelihood and
maximum a posteriori formulations and describe some of the
most successful optimization algorithms.
Prerequisite knowledge includes basic knowledge of the
physics of emission and transmission imaging systems, statistics,
calculus, and elementary linear algebra.
Course Outline
•• Tomographic reconstruction introduction
•• Basic of 2D analytical tomography
•• 3D cone-beam analytical tomography
•• Basic of model-based image reconstruction
•• Optimization algorithms
•• Advanced iterative reconstruction
Michel Defrise received the Ph.D. degree in theoretical physics
from the University of Brussels in 1981, with a thesis devoted
to photon-photon interactions in electron-positron storage
rings. He was a visiting professor in the Department of
Radiology of the University of Geneva in 1992-1993, working
with David Townsend, Paul Kinahan and Christian Michel on
the development of the 3D-PET methodology. He developed
in particular the Fourier Rebinning Algorithm (FORE), as well as
algorithms for cone-beam reconstruction in collaboration with
Rolf Clackdoyle (CNRS), Frédéric Noo (U. of Utah) and Hiroyuki
Kudo (U. of Tsukuba). With the same colleagues, he developed in
2002 algorithms allowing exact region of interest reconstruction
from limited data. He is professor in the Department of Nuclear
Medicine at the Vrije Universiteit Brussel (Free University Brussels)
and his research interests still include 3-D image reconstruction
in nuclear medicine (PET and SPECT) and in CT. He is Fellow of
the Institute of Physics (UK), Fellow of the IEEE, and Associate
Editor of IEEE Transactions on Nuclear Sciences.
Frederic Noo is an Associate Professor of Radiology at the
University of Utah. He holds adjunct appointments at the same
level in Bioengineering, and also in Electrical and Computer
Engineering. He is an IEEE member and an Associate Editor for
IEEE Transactions on Medical Imaging. He has co-authored 59
peer-reviewed papers, and 91 conference records. His research
interest encompasses all aspects of x-ray computed tomography
(CT), including image reconstruction techniques. His research
projects involve the development of advanced reconstruction
techniques for multi-slice CT, for cardiac CT imaging of the whole
heart using cone-beam data collection within a single heartbeat,
and for cone-beam imaging in interventional radiology. One
fundamental problem with cone-beam tomography is the
handling of truncation in the projections. Significant progress
has been made on this problem over the last few years, but
many problems remain. This issue is integral to his research
projects, as well as that of task-based image quality assessment
for optimization of reconstruction algorithms.
Jinyi Qi is a Professor of Biomedical Engineering at University of
California-Davis, and a Faculty Scientist in the Department of
Radiotracer Development and Imaging Technology at Lawrence
Berkeley National Laboratory. He received his Ph.D. degree in
Electrical Engineering from the University of Southern California
in 1998. He has been with the Lawrence Berkeley National
Laboratory since 1999 and joined the faculty at UC Davis in 2004.
He is an Associate Editor of the IEEE Transactions of Medical
Imaging and Fellow of AIMBE. His research interests include
statistical image reconstruction, image quality evaluation,
system modeling and optimization.
SC6 - Physics and Design of Detectors for SPECT
and PET
Location: Hall E3
Organizer: Lars R. Furenlid, University of Arizona, USA
Instructors:
Harrison H. Barrett, University of Arizona, USA
Thomas K. Lewellen, University of Washington, USA
Lars R. Furenlid, University of Arizona, USA
Course Description
This course will survey the state of the art in gamma-ray detectors
32 Short Course Program for PET and SPECT, with a discussion of emerging technologies
as well as traditional semiconductor and scintillator devices.
The course will begin with a discussion of detector physics,
cover signal generation, analog and digital pulse-processing
techniques, triggering, and acquisition strategies. Considerable
emphasis will be placed on statistical characterization of the
detectors and on optimal estimation methods that take the
statistical properties into account. Lecture topics will include
survey of technologies for gamma-ray detection, detector
requirements for SPECT and PET, state of the art in scintillation
detectors, state of the art in semiconductor detectors, statistical
modeling and estimation methods, event triggering and
coincidence techniques, data-acquisition systems, real-time
maximum-likelihood estimation methods, and examples of
applications.
Course Outline
•• Introduction
•• Requirements for detectors and fundamental physics
•• Fundamentals of pulse processing
•• Acquisition systems
•• Detector statistics and estimation methods
•• SPECT detectors: state of the art and research directions
•• PET detectors: state of the art and research directions
•• Discussion
Harrison H. Barrett was educated at Virginia Polytechnic
Institute, MIT and Harvard. He is currently a Regents Professor
at the University of Arizona, with appointments in the College
of Optical Sciences, the Dept. of Radiology and the programs in
Applied Mathematics and Biomedical Engineering. He is director
of the Center for Gamma-ray Imaging and a fellow of the IEEE. In
collaboration with Kyle J. Myers, he has written a book entitled
Foundations of Image Science, which in 2006 was awarded the
First Biennial J. W. Goodman Book Writing Award from OSA and
SPIE.
Thomas K. Lewellen was educated at Occidental College and
the University of Washington. He is currently a Professor at the
University of Washington, with appointments in the Department
of Radiology (School of Medicine) and Electrical Engineering. He
is director of the Nuclear Medicine Physics Group and a senior
member of the IEEE. His major research is in the development of
electronics and detector systems for SPECT and PET.
Lars R. Furenlid was educated at the University of Arizona and
the Georgia Institute of Technology. He is currently a Professor
at the University of Arizona and associate director of the Center
for Gamma-ray Imaging, with appointments in the Department
of Radiology and the College of Optical Sciences. He was a staff
scientist at the National Synchrotron Light Source at Brookhaven
National Laboratory. His major research area is the development
and application of detectors, electronics, and systems for
biomedical imaging.
Location: Hall E4
Organizer: Steven Meikle, The University of Sydney, Australia
Instructors:
Steven Meikle, The University of Sydney, Australia
Dennis Schaart, Delft University of Technology, The Netherlands
Helen (Hyewon) Youn, Seoul National University Hospital, Korea
Georges El Fakhri, Harvard Medical School, USA
Richard E. Carson, Yale University, USA
Course Description
This course will introduce the attendees to the fundamentals
of molecular imaging: biological mechanisms and molecular
probes, imaging technologies and their applications, with
a focus on SPECT and PET. The course is aimed at physicists
and engineers new to the field of molecular imaging and
its technologies. It does not require previous knowledge of
molecular biology and medical imaging techniques, but basic
understanding of biological mechanisms and physics of radiation
interaction is assumed. The course will be organized in 2 parts:
introductory and advanced topics. In the introductory (morning)
session, the instructors will cover the fundamentals of molecular
imaging and molecular probe mechanisms, an overview of the
imaging techniques available, and a focus on the principles and
basic technology of SPECT and PET. In the advanced (afternoon)
session, the instructors will discuss recent developments in
PET and multi-modality imaging, quantitative techniques and
applications of molecular imaging in translational biomedical
research and clinical medicine.
Course Outline
1. Introductory topics (morning session):
•• Introduction to molecular imaging
•• Principles of PET and SPECT
•• Detector technologies for molecular imaging
•• Basics of molecular biology and animal models
2. Advanced topics (afternoon session):
•• Recent advances in PET and multi-modality
imaging
•• Quantitative molecular imaging
•• Translational applications of molecular imaging
Steven Meikle is the Professor of Medical Imaging Physics at
the Faculty of Health Sciences, University of Sydney and CoDirector of the Ramaciotti Imaging Centre at the Brain and
Mind Research Institute. His research interests are quantitative
emission computed tomography and molecular imaging. He
has published 7 book chapters and more than 80 papers in peerreview journals.
Dennis Schaart is with the Radiation Detection and Medical
Imaging Section at Delft University of Technology. His main
research interests include novel scintillation detectors for timeof-flight (TOF) PET, for PET/MRI, for high-resolution SPECT, and
34 Short Course Program for dose verification in Particle Therapy. He has published more
than 50 papers in peer-review journals.
Helen (Hyewon) Youn graduated from Seoul National University
(BSc, MSc) and Texas Tech Univ (PhD). She worked as a research
associate and an instructor in SouthWest Cancer Center (TX,
USA) and the University of Kansas Medical Center (KS, USA) from
2000 to 2007. She joined Seoul National University Hospital in
2008. She has published 47 papers in peer-reviewed journals
related to cancer biology, radiation biology and molecular
imaging.
Georges El Fakhri is a Professor of Radiology at Harvard Medical
School and the Director of the Center for Advanced Radiological
Sciences, Co-Director of the Division of Nuclear Medicine
and Molecular Imaging. He is an internationally recognized
expert in quantitative SPECT and PET-CT, PET-MR imaging
and has published more than 100 peer-reviewed articles and
proceedings.
Richard E. Carson is Professor of Biomedical Engineering and
Diagnostic Radiology at Yale University. He is Director of the Yale
PET Center and is Director of Graduate Studies in Biomedical
Engineering. His research focus is on the development and
application of mathematical techniques for the study of human
beings and non-human primates with PET. He has published
over 150 papers in peer-reviewed journals.
Ron Keyser
Ho Kyung Kim
Industrial Program
T
he IEEE NSS/MIC Industrial Program provides our
conference attendees with ample opportunities to meet
the different exhibitors on Tuesday, Wednesday, and
Thursday, 29 to 31 October. The opening hours will follow the
hours of the conference. More than 50 companies from around
the world will be present to meet conference attendees and to
demonstrate their latest products. These represent state-of-theart in detectors, pulse processing instrumentation, imaging,
software, and other associated areas. The exhibition area is
located at Hall B2, 1st floor of COEX Convention Center. Coffee
breaks will be in the exhibit area from Tuesday to Thursday. The
exhibits will remain open until after the afternoon coffee on
Thursday to provide extra time for the MIC attendees to visit.
The three-day exhibition is complemented by a series of
seminars and technical presentations on Tuesday, Wednesday,
and Thursday at Hall E5 located on the 3rd floor, which will allow
an in-depth exchange of information between attendees and
exhibitors on existing products, future developments and needs.
The morning and afternoon coffee breaks will be held in the
exhibit area. On Tuesday evening from 19:00 to 21:00, the
exhibiting companies will host the Exhibitor Reception.
The Exhibition opening hours are as follows.
Exhibition Opening Hours
Tuesday, October 29
12:00-21:00
Reception Starting at 19:00
09:00-18:00
09:00-16:00
Ron Keyser
Industrial Program Co-Chair
36 Industrial Program Ho Kyung Kim
List of Exhibitors (as of July 13, 2013)
Acrorad Co., Ltd.
Advacam
AdvanSiD S.R.L
Alpha Spectra, Inc.
AMPTEK Inc.
Amsterdam Scientific Instruments
Baltic Scientific Instruments
CAEN Technologies Inc.
Canberra
DQE Instruments
DRGEM Corporation
E T Enterprises Ltd.
Eljen Technology
FLIR Systems
Furukawa Co., Ltd.
Hamamatsu Corporation
Hilger Crystals
Instrumentation Technologies d.d.
Integrated Detector Electronics AS
iseg Spezialelektronik GmbH KETEK GMBH
Kromek
labZY, LLC
Luxen Technologies, Inc.
Mediso Ltd.
Micron Semiconductor Limited
NanoFocusRay
NOTICE
NuCare Medical Systems, Inc.
ORTEC
Philips Digital Photon Counting
Rayence Co., Ltd
RCA Regional Office
Rockwood Lithium
SAFC Hitech
Saint-Gobain Crystals
Samsung Electronics Co., Ltd.
Satrec Initiative
ScintiTech/Amcrys
Scionix Holland BV
SensL
SICCAS
SINTEF ICT
Sogang Univeristy
Struck Innovative Systeme GmbH
Taiwan OSTOR Corp.
TechnoAP Co., Ltd.
Tokuyama Corporation
Vertilon Corporation
Vieworks Co., Ltd.
W-IE-NE-R Plein & Baus GmbH
XIA LLC
X-Ray Imaging Europe GmbH
X-RAY IMATEK
Industrial Program 37
Location: Hall E5
Exhibitor Technical Sessions will take place at the following
times:
••
••
••
Tuesday, 29 October from 13:30 to 18:00
Wednesday, 30 October from 08:00 to 18:00
Thursday, 31 October from 08:00 to 12:30
Here is a preliminary list of presentations. The final list and
schedule will be posted on the web and printed in the Exhibition
Guide & Exhibitor Presentations.
Tuesday, October 29
Time
Company
Title
13:30-14:30
Hamamatsu
Photonic K.K.
Developments and Applications
of MPPC
14:30-15:30
Amsterdam
Scientific
Instruments &
Jablotron Alarms
The Technology behind ASIS
Detectors and MX-10 for
Educational Purpose
16:00-17:00
Hilger Crysyalis
/ RMD
Optimisation of Novel Scintillators
for Gamma and Neutron Detection
17:00-18:00
X-Ray Imatek /
Alibava Systems
Introducing the Photon Counting
Technology into Industry
08:00-09:00
CAEN
A Digital Programmable Emulator
of Radiation Detection Setups
09:00-10:00
Nucare Medical
Systems
Imaging Solutions for Homeland
Security
10:30-11:30
ORTEC
Advances in portable and
stationary mechanically-cooled
HPGe gamma-ray measurement
systems for Nuclide Identification
and Analysis in Emergency
Response, Environmental,
Homeland Security, and Laboratory
Applications.
11:30-12:30
Satrec Initiative
Environmental Radiation
Monitoring System Development
Trend in South Korea
13:30-14:30
Rockwood
Lithium GmbH
New Scintillation Materials in
Industrial Scale
14:30-15:30
Advacam
New Large Area Photon Counting
Camera for X-ray Microscopy and
Imaging
16:00-17:00
Sangki
Corporation
(Hamamatsu
Photonics K.K.)
Latest Vacuum Photo Detectors and
Technologies from Hamamatsu
17:00-18:00
LABZY, LLC
Advances in Pile-Up Rejection and
Peak Detection Technology
38 Industrial Program Thursday, October 31
08:00-09:00
Saint-Gobain
Crystals
Developments in Radiation
Detection Solutions
09:00-10:00
Tokuyama
Corporation
Neutron Detector Consisting of
Transparent, Flexible and Scalable
Sheet Scintillator for He-3
Replacement
10:30-11:30
Rayence
Rayence Introduction (product
Line-up)
11:30-12:30
W-IE-NE-R Plein &
Baus GmbH / iseg
Spezialelektronik
GmbH
High and Low Power Supply
Solutions for Radiation Detectors
in Nuclear Physics and Medical
Imaging Applications
Industrial Program 39
Benjamin Tsui
Anatoly Rozenfeld
Special Focus Workshops
NSS Special Focus Workshops
T
his year we have selected four comprehensive special focus
workshops for the NSS. Due to strong interest in the growing
field of proton and heavy ion therapy we are repeating the
very successful hadron therapy workshop to discuss innovations
in particle imaging detector instrumentation and image
reconstruction with application in treatment planning.
Two new NSS workshops reflect emerging technologies and
new concepts in radiation detectors for radiation dosimetry in
radiation therapy, space and terrestrial radiation protection.
They will cover dosimetry and microdosimetry in mixed radiation
fields, and high spatial resolution detectors for dosimetry in
synchrotron X-ray microbeams with micron spatial resolution.
These three workshops have some commonality and are
aiming to initiate dialog between the radiation detector
instrumentation and medical physics in the radiation oncology
communities to improve quality assurance in contemporary
radiation therapy with X-ray and charged particles by the
introduction of innovative detector technologies not currently
available in radiation therapy practice. The workshop venues
are located close to each other to allow participants to attend
concurrent sessions.
Another new NSS workshop will be on the developments of
Ultra Fast Single Soft Photon Detectors (UPDs) based on SiPM
technology. The workshop will be centered on the ultimate
limits of SiPMs, focusing on new technologies such as vacuum
electron multiplication, superconductivity, and on new
materials like germanium, grapheme, nano-grass, and diamond.
Such detectors will lead to new radiation instrumentation with
applications in HEP and medical imaging, space research and
other fields.
Lectures will be presented by internationally recognized experts
in the field. This year we have introduced a new feature in the
special workshop program - 5 minute oral presentations by
young scientists and progress reports by PhD students as a part
of the continuing mentoring program of research students and
their attraction to NSS professional activities.
Anatoly Rozenfeld
NSS Workshop Chair
40 Special Focus Workshops NSS Workshop
Date
Location
NWK1 - New Technologies in Hadron
Therapy: Particle Imaging and
Optimization of Treatment Delivery
Sun. Oct. 27
8:00- 16:30
ASEM 201
NWK2 - Detectors in Radiation Therapy
and Microsurgery with Synchrotron
Radiation X-Rays: Dosimetry, Quality
Control and Image Guidance
Sun. Oct. 27
8:00- 13:00
ASEM
208AB
NWK3 - New Detector Technologies
in Radiation Dosimetry and its
Applications
Sun. Oct. 27
13:30-19:00
ASEM
208AB
NWK4 - Towards a 10 ps Single Soft
Photon Detector
Sun. Oct. 27
8:30- 17:00
ASEM
203AB
A
MIC Special Focus Workshops
s the field of biomedical imaging continues its fast pace
of development seen in recent years, several exciting
topical areas have emerged and garnered much attention.
Among them are four of particular interest to researchers and
practitioners in our biomedical sciences community. They are: (1)
quantitative four-dimensional image reconstruction methods,
(2) PET-MR and SPECT-MR, (3) fundamentals and applications
of photon-counting x-ray detectors, and (4) intraoperative and
intratherapy molecular Imaging.
Quantitative four-dimensional image reconstruction methods
have provided significantly improved dynamic and functional
images, such as the beating heart and rapidly changing
functional images over time. Innovative PET-MR and SPECT-MR
instrumentation and dual-modality imaging techniques have
overcome many technical difficulties to enable simultaneously
anatomical and functional image acquisition of human and small
animals that are beyond those offered by the widely successful
PET-CT and SPECT-CT imaging techniques. Unlike the traditional
energy-integrating x-ray detectors that provide information
about material density only, the development and application
of a new generation of photon-counting x-ray detectors offer
spectral information in the acquired data and allow delineation
of material composition. Intra-operative probes with and
without imaging capability have moved from bench to bedside
and are accepted by radiologists and surgeons in their clinical
practices.
The goals of the MIC Special Focus Workshops are to provide
attendees with comprehensive reviews of the fundamentals
and current status of these rapidly developing topics, as well as
a forum for discussion of opportunities and future challenges
facing these exciting areas of research and applications.
The first three MIC workshops are half-day events and the
fourth a full-day event. We have invited, as speakers, prominent
experts who pioneered and who have been actively involved
in the research, development, and applications in these special
emerging areas of research. They come from both the academia
and industry, and with applications from both the clinical and
Special Focus Workshops 41
preclinical sides. The fourth workshop also invites abstract
submissions for selective presentations. The special focus
workshops encourage active participation from attendees
during the discussion period after each lecture, as well as during
a panel discussion held at the end of each workshop.
Benjamin Tsui
MIC Workshop Chair
MIC Workshop
Date
Location
MWK1 - Quantitative Four-Dimensional
Image Reconstruction Methods
Mon. Oct. 28
8:30-12:30
ASEM 201
MWK2 - PET-MR and SPECT-MR
Mon. Oct. 28
13:30-17:30
ASEM 201
MWK3 - Fundamentals and Applications
of Photon-Counting X-ray Detectors
Mon. Oct. 28
13:30-17:30
ASEM
208AB
MWK4 - Intraoperative and Intratherapy
Molecular Imaging (*)
Sun. Nov. 3
08:00-18:00
ASEM
203AB
* This workshop is full day and has a registration fee of $100 if
you register by Oct.11. After October 11 the fee will increase to
$130.
42 Special Focus Workshops NWK1 - New Technologies in Hadron Therapy:
Particle Imaging and Optimization of Treatment
Delivery
Location: ASEM 201
Organizers:
Patrick Le Dû, IPN Lyon, France ([email protected]),
Anatoly Rozenfeld, Centre for Medical Radiation Physics , University
of Wollongong, Australia ([email protected])
Reinhard Schulte, Loma Linda University, USA (rschulte@dominion.
llumc.edu)
Katia Parodi , Ludwig Maximilian University, Germany (katia.
[email protected])
Description:
The scope of this workshop is to summarize the state-of-the-art of
technological developments imposed by the various needs and
constraints associated with the patient dose optimization, delivery
and monitoring during hadron therapy treatment. It will be illustrated
by some R&D projects. Details will cover various topics like:
••
Status and overview of new accelerators and associated
beam instrumentation.
•• Moving targets: modeling of motion and organ deformation,
detection and tracking organ motion
•• Advanced technologies for real time dose quantification
using in-beam PET and prompt gammas detectors.
•• Proton and Ion Computed Tomography developments
•• Any other related topics It is foreseen to have in the morning ORAL sessions invited
introductory and overview talks made by internationally
recognized experts and clinicians as well as status reports
on ongoing and future R&D projects. The beginning of the
afternoon will be dedicated mainly to short (5 minutes,
including questions) oral presentations by young scientists and
PhD students. We encourage young researchers to present and
discuss their work. At the end of the day, a discussion forum with
experts will be organized.
NWK2 - Detectors in Radiation Therapy and
microsurgery with Synchrotron Radiation
X-rays: Dosimetry, Quality Control and Image
Guidance
Location: ASEM 208AB
Organizers:
Alberto Bravin, ESRF, France ([email protected])
Elke Braeuer-Krisch, ESRF, France ([email protected])
Michael Lerch, University of Wollongong, Australia (mlerch@uow.
edu.au)
Description:
The Workshop will discuss emerging technologies in high spatial
resolution detectors for radiation therapy and microsurgery
using synchrotron radiation X-rays. Specific challenges in online and off-line radiation measurement include relative and
absolute dosimetry at very high dose rates, small irradiation
fields, uniform and spatially fractionated, monochromatic or
filtered white beam radiation. Detectors for image guidance are
used to guide radiation delivery with micrometric resolution.
First clinical trials using synchrotron radiation in combination
with contrast agents as dose enhancer are currently ongoing at
the ESRF (Grenoble, France) with monochromatic beam at dose
rates comparable to conventional RT. However, a new class of fast
detectors and readout electronics with high spatial resolution is
required in Microbeam Radiation Therapy, which uses arrays of
dozens of 25-100 micron wide microbeams depositing doses of
hundreds of Grays in a fraction of a second. Leading experts in
the field and young detector and image reconstruction scientists
from many synchrotron facilities have confirmed strong interest
to this workshop which will be forum leading to acceleration
of clinical application of synchrotron radiation. Importance is
confirmed by recently initiated EC-Funded COST action TD 1205
(http://www.cost.eu/TD1205).
The following topics are priority of the workshop but not limited
to:
••
••
••
••
Detectors and Fast DAQ for high spatial resolution
synchrotron imaging
Detectors for dosimetry of highly intensive synchrotron
microbeams
Photon spectrometry of the therapeutic synchrotron
microbeam (MRT)
Real time QA of treatment delivery in MRT
This half day workshop will consist of invited overview lectures,
contributed oral presentations and a session with short (5
minutes, including questions) oral presentations by young
scientists and PhD students. There will be no poster session.
NWK3 - New Detector Technologies in Radiation
Dosimetry and its Applications
Organizers:
Marco Silari, CERN, Switzerland ([email protected])
Tomas Kron, Peter McCallum Cancer Centre, Australia (Tomas.
[email protected])
Description:
The scope of this workshop is to summarize the state-of-the-art
of technological developments in the various fields of application
of radiation dosimetry, from medicine to space. Growing
collective dose for the population due to medical exposures,
mostly from X-ray CT and intervention radiology, as well as
the introduction of sophisticated conformal radiation therapy
techniques, require new quality assurance (QA) instrumentation.
Radiation detection technology driven by HEP and in particular
pixelated semiconductor detectors and RTD can find application
for dosimetry in radiation medicine and radiation protection.
New approaches are required for processing information from
these detectors working in spectroscopy and current modes to
44 Special Focus Workshops obtain tissue doses. Sophisticated gas detectors like GEM (gas
electron multipliers) and TEPC (tissue equivalent proportional
counters) are being used in addition to ionization chambers.
Developments in dosimetry instrumentation from very portable
electronic badges for mixed radiation field dosimetry and
microdosimetry in terrestrial and space radiation protection,
to large area amorphous silicon dose imaging devices with
application in radiation therapy, diagnostic radiology and
avionics, are becoming possible.
Radiation dosimetry has the following overall scopes, which will
be addressed in the workshop:
••
disentangle the various components of the radiation field and
determine the dosimetric quantities due to each component
•• measure the radiation quality of the radiation field (microand nano-dosimetry)
•• unfolding the energy spectra of the various components
of the mixed radiation field (e.g. photon and neutron
spectrometry) in various applications such as:
•• the characterization and monitoring of the stray radiation
field around particle accelerators
•• the characterization and monitoring of the radiation field on
a board of commercial aircrafts and in space
•• the assessment of dose to patients undergoing radiation therapy
•• the assessment of the dose received by patients in diagnostic
examinations
•• the measurement of the properties of clinical hadron
beams This workshop will put together medical physics, radiation
protection and IEEE NSS communities allowing prompt utilization
of state-of-the-art detector instrumentation experience for
the improvement of the quality of life. The importance of this
workshop is supported by the recently initiated ARDENT project
funded by the EU, http://cern.ch/ardent.
This half day workshop will consist of invited overview lectures,
contributed oral presentations and a session with short (5
minutes, including questions) oral presentations by young
scientists and PhD students. There will be no poster session.
NWK4 - Towards a 10 ps Single Soft Photon
Detector
Organizers:
Harry van der Graaf, Nikhef, the Netherlands ([email protected])
Edoardo Charbon, Delft University of Technology/EWI, The
Netherlands ([email protected])
Dennis Schaart, Delft University of Technology/TNW/RST
([email protected])
Description:
A decade ago, the detection, with good time resolution, of
single soft (0.1 µm < λ < 10 µm) photons was only possible
with photomultipliers. Since then, the development of silicon
photomulipliers (SiPMs) has gained avalanche-like momentum
in terms of detection efficiency, time resolution, granularity (2D
spatial resolution), and cost reduction. These planar solid-state
devices are insensitive to magnetic fields and require only low
bias voltage. The ultimate soft photon detector would provide
a time stamp for each individual photon with an uncertainty of
less than 10 ps, as well as the x- and y- coordinates of detection
with micron resolution, while noise levels should be reduced
further, and data rates should be increased beyond 25 Gbps.
The development of Ultra Fast Single Soft Photon Detectors
(UPDs) presently is one of the most relevant and dynamic areas
of research in radiation technology.
The workshop will be centred on the ultimate limits of SiPMs,
focusing on new technology such as vacuum electron
multiplication, superconductivity, and on new materials like
germanium, graphene, nano-grass, and diamond. There will
be special attention to new developments of high-QE fieldemission photocathodes.
UPDs will cause a paradigm shift in the instrumentation of particle
physics (particle tracking, calorimetric, Cherenkov imaging detectors,
Cherenkov Trackers, Time-of-Flight), medical imaging (CT, PET,
SPECT), space research, atomic and molecular physics, optical data
communication, quantum encryption, and true 3D imaging.
Tentative schedule:
8:30 Registration, Hello, Coffee
9:00 Opening: Workshop Scope & Overview
9:15 Status & Outlook SiPMs
11:00 Contributions of Industry: Hamamatsu, Photonis, Philips
12:30 Lunch
14:00 New Technologies, Materials and Theoretical Support
16:00 Applications
17:30 Panel Discussion & Conclusions
MWK1 - Quantitative Four-Dimensional Image
Reconstruction Methods
Location: ASEM 201
Organizers:
Benjamin M. W. Tsui, Ph.D., Johns Hopkins University, USA (btsui1@
jhmi.edu)
Steven Meikle, Ph.D., The University of Sydney, Australia (steven.
[email protected])
Description:
Since the revolutionary development of x-ray and emission
computed tomography in the seventies, exciting advances have
been made in the theory and application of image reconstruction
methods in biomedical imaging. Notable are the extensions of
image reconstruction methods from two-dimensions (2-D) to
three-dimensions (3-D) and quantitative methods that provide
reconstructed images with much improved image quality and
quantitative accuracy. During the past decade, quantitative 3-D
image reconstruction methods have been extended to include
46 Special Focus Workshops time as the fourth dimension, i.e., quantitative 4-D image
reconstruction. There are two major goals for this development.
First is to reduce reconstructed image artifacts due to involuntary
patient motion, e.g., respiratory motion, that causes loss of
resolution and quantitative accuracy. Second is to improve the
quality and temporal resolution of dynamic images for improved
assessment of global and regional motion parameters (e.g.,
cardiac) and more reliable quantification of kinetic parameters.
The goal of this workshop is to provide the fundamentals,
applications, current status and future directions of the exciting
emerging field of quantitative 4-D image reconstruction
methods. The workshop will consist of review lectures by
experts in x-ray CT and ECT that lead to questions, answers,
cross-pollination and stimulating discussions.
Location: ASEM 201
Organizers:
Georges El Fakhri, Ph.D., DABR, Harvard Medical School, USA
([email protected])
Benjamin M. W. Tsui, Ph.D., Johns Hopkins University, USA (btsui1@
jhmi.edu)
Description:
After 15 years of research and development, simultaneous PETMR has emerged from bench to bed-side. Innovative detector
technologies, special instrumentation designs, and imaging
acquisition and reconstruction methods have demonstrated
feasibility of acquiring PET and MR small animal image data
simultaneously with minimal interference and degradation
of image quality. The success has translated to clinical PET-MR
with the first commercial system available in 2011. Despite the
excitement and the availability of commercial systems, several
issues such as attenuation for PET and motion correction remain
topics of active research. Furthermore, evaluation of its clinical
utility has just begun and is a hot area of research as well. The
development of simultaneous SPECT-MR lags behind with
feasibility demonstrated recently in small animal imaging studies.
Following the overwhelming success of the 2010 IEEE NSS/MIC
Workshop on PET-MR in Knoxville, this workshop will provide the
fundamentals of simultaneous PET-MR and SPECT-MR and focus on
challenges and opportunities afforded by the recent and exciting
developments in innovative detectors and instrumentation for
simultaneous small animal and clinical PET-MR and SPECT-MR
imaging, reconstruction and quantitation methods, radiochemistry,
as well as emerging clinical applications of PET-MR in oncology,
neurology and cardiology. World experts will cover each topic in
focused presentations followed by discussions.
MWK3 - Fundamentals and Applications of
Photon-Counting X-ray Detectors
Organizers:
Katsuyuki (Ken) Taguchi, Ph.D., Johns Hopkins University, USA
([email protected])
Patrick J. La Rivière, Ph.D., The University of Chicago, USA (pjlarivi@
midway.uchicago.edu)
Description:
The development of energy-sensitive photon-counting x-ray
detectors (PCD) has created great excitement in x-ray and x-ray
CT systems. Such innovative new x-ray detectors count individual
photons and sort them into selected energy bins. It is said that
PCDs will not only improve anatomical or functional CT imaging
significantly but also provide an opportunity for molecular CT
imaging. On the side of enthusiasm, a lot of questions are being
asked. Several PCDs with different detector designs have been
developed, and it is unclear at present which design is or will be
the best. Are count rates of PCDs sufficient for intense x-ray flux
of CT systems? Is the current energy resolution sufficient? What
are the other technologies that need to be developed for PCDCT and what are the remaining issues? What are the potential
clinical benefits? When will the first commercial PCD-CT system
be introduced? Will PCDs be used for x-ray systems as well?
Aiming at providing answers to the questions listed above, this
workshop will review the current status and perspectives of the
following four aspects of PCD-CT: (1) detector technologies, (2)
imaging technologies, (3) system technologies, and (4) potential
clinical applications and benefits. Various detector designs and
the required specifications for x-ray CT systems will be reviewed.
Methods to model, calibrate, and compensate for the non-ideal
properties of PCDs will be discussed. Algorithms to reconstruct
images from spectral data will be presented. Desirable
technologies that will be required to accelerate the PCD-CT
system development will be reviewed. World experts will cover
these topics in focused presentations followed by discussions.
Molecular Imaging
Sunday, November 3, 08:00-18:00
(This workshop has a registration fee)
Organizers:
John N. Aarsvold, Emory University & Atlanta Veterans Affairs
Medical Center, USA ([email protected])
Stanislaw Majewski, West Virginia University, USA (smajewski@hsc.
wvu.edu)
Keon W. Kang, Seoul National University, Korea (kangkw@snu.
ac.kr)
Georges El Fakhri, Massachusetts General Hospital, USA (elfakhri.
[email protected])
Description:
48 Special Focus Workshops Intraoperative use of radioactivity is common. Intraoperative
imaging is not. The focus of this workshop is intraoperative
imaging, particularly intraoperative emission imaging and
intraoperative multi-modality imaging that includes emission
imaging.
Many intraoperative procedures are directed significantly
by results of preoperative emission imaging and might, in
some cases, be completed more efficiently and/or effectively
if appropriate intraoperative imaging technologies and
protocols are developed and included. Sentinel lymph node
biopsy, parathyroidectomy, hepatic malignancy therapy,
localization of colorectal cancer, tumor margin delineation,
and occult lesion localization are examples of intraoperative
procedures significantly directed by results of preoperative
emission imaging. They are also procedures that at times involve
radiopharmaceuticals and that at times might benefit from
inclusion of appropriate intraoperative imaging strategies.
In this workshop, the state of clinical intraoperative imaging
and intraoperative imaging technology will be reviewed and
directions of research in intraoperative imaging technologies
and protocols will be explored. Invited experts (surgeons,
nuclear medicine physicians, imaging scientists, engineers,
and other scientists) with significant experience in the use of
intraoperative molecular imaging in the care of patients will
present and discuss their efforts and results.
This workshop has a registration fee.
This workshop is a day-long event scheduled for the Sunday
following the MIC (3 Nov 2013).
Special Events
Special Women in Engineering (WIE) Session:
Contribution of Women Scientists to Nuclear
Science and Medical Imaging
Location: Hall E3
Organizer:
Keumsil Lee
Description:
We are pleased to welcome you to the Women in Engineering (WIE)
Session, a special session to provide an opportunity for participants
to exchange ideas and experiences in an informal setting. The special
session will address the theme of women’s contributions to nuclear
science and medical imaging by presenting encouraging examples
from the IEEE NSS and MIC. The session has the following goals:
••
encouraging young women to choose science and
engineering as a career
•• how to improve the progression of women in order to
minimize the movement of women out of these fields
•• how to overcome barriers for the advancement of women
already working in science and engineering
•• how to combine a career with personal life
Several speakers with outstanding careers in scientific laboratories,
industry, and government have been invited to give brief summaries
on what they have done to get where they are today and how they
have addressed the incorporation of women in their teams. These
women and men are role models for generations to come. There
will be keynote presentations, followed by a panel discussion on
the session issues, which are of importance not only to the society
of women in science and engineering but to the general public as
well. Students who are beginning their careers in these areas will be
invited to participate in the panel discussion. We hope that the WIE
Session will help foster efforts to counter a worrisome trend that has
been recently noticed in European countries: the more developed
the country is and the richer the society is, the fewer women there
are in S&E. We cannot afford to lose these talented women and we
encourage all members of the IEEE NSS & MIC community to attend.
Details about the WIE Session can be found on the website: http://
www.nss-mic.org/2013 GATE Users Meeting: Open Access Simulation Tool
for PET/SPECT, CT, Optical Imaging and Radiation
Therapy
Location: GBR 101-102
Organizer:
Irène Buvat, Albertine Dubois, Sébastien Jan, and the OpenGATE
collaboration (http://www.opengatecollaboration.org)
Description:
GATE is an open access Monte Carlo simulation tool based on Geant4
50 Special Events and enabling simulation of emission tomography (SPECT and
PET), computed tomography (CT), optical imaging (fluorescence,
bioluminescence) and radiotherapy treatments (conventional
radiotherapy or hadrontherapy). The GATE user’s meeting is intended
to gather all those interested in using GATE for various applications.
The meeting will give the users an overview of the latest functionalities
of GATE, including the availability of GPU modules for imaging
applications, demonstration of optical simulations with GATE, and
use of GATE in radiation therapy. The current GATE developments will
also be discussed, and input from users will be welcome.
GOLD Reception
Location: Hall E4
The IEEE Nuclear and Plasma Science Society (NPSS) promotes the
activities of IEEE GOLD (Graduates of the Last Decade) program.
Consequently, a special reception will be held on Thursday,
October 31 from 19:00 to 21:00 at Hall E4 of Coex. Refreshments
will be served and attendance is free but restricted to IEEE
GOLD members. In a comfortable and casual atmosphere, warm
relationship between the attendees will be easily established.
After a short welcome address, the participants will be invited to
take refreshment while listening to speakers who look back on
their careers in both academia and industry.
Over the past few years, the GOLD reception at NSS-MIC has
proven to foster direct contact between young professionals
and colleagues at the peak of their careers. Therefore, if you are
an IEEE GOLD member or have joined the Nuclear and Plasma
Sciences society, you are cordially invited to participate. If you
wish to become a GOLD member, please check the IEEE website
(www.ieee.org) for more information.
STIR Users meeting
Location: GBR 105
Organizer:
Charalampos Tsoumpas, King's College London & University of
Leeds ([email protected]),
Kris Thielemans, University College London (k.thielemans@ucl.
ac.uk)
Description:
STIR is Open Source software for use in tomographic imaging. Its aim
is to provide a Multi-Platform Object-Oriented framework for all data
manipulations in tomographic imaging. Currently, the emphasis is
on image reconstruction in emission tomography (PET and SPECT)
but other imaging modalities can be added in the future. During
this meeting experienced users and developers will present their
work with STIR with technical emphasis on software and algorithmic
development. Additional time will be allowed for discussion between
the speakers and the audience. If interested in presenting contact the
chairs before the 15th of September.
The event is free but priority will be given to those that have reserved
as only limited space is available. Furthermore, we hope to provide
Special Events 51
free dinner for those first to reserve.
For up-to-date information please always check STIR website: http://
stir.sf.net
OpenPET Users Group Meeting
Location: ASEM 201
Organizer:
Woon-Seng Choong, [email protected]
Description:
OpenPET is a general purpose, open source readout electronics
system for high performance radionuclide imaging that is under
development by LBNL. It consists of circuit boards, firmware and
software for people that are building prototype PET and SPECT
imagers. At this OpenPET users group meeting, we will give a status
update of OpenPET. All are welcome to attend. You can find more
information about OpenPET at http://openpet.lbl.gov/.
SimSET and ASIM Users Meeting
Location: Hall E5
Organizer:
Robert Harrison, University of Washington, Department of
Radiology ([email protected])
Description:
SimSET and ASIM are two open source, emission tomography
simulation programs distributed by the Imaging Research
Laboratory at the University of Washington. SimSET is a photon
tracking simulation for PET and SPECT that can accurately estimate
the effects of scattered and random coincidences, clinical protocol,
and tomograph design on the projection data acquired by scanners.
ASIM is an analytic simulation of PET which can quickly generate
multiple realizations of projection data for studies where the effects
of image noise and tomograph resolution are of interest.
This users meeting will be focused on new users. We will present an
overview of how to install SimSET and ASIM, followed by an overview
of the types of studies each has been used for.
The event is free but priority will be given to those that have reserved
as only limited space is available. Furthermore, we hope to provide
free lunch for those first to reserve.
To reserve a space or to otherwise inquire about the meeting, please
email us at [email protected].
52 Special Events D
Ikuo Kanno
Gyuseong Cho
NSS
Nuclear Science Symposium
ear Colleagues and Guests,
We are very happy and excited to host the 60th anniversary
of IEEE Nuclear Science Symposium at Seoul, Korea.
The IEEE Nuclear Science Symposium (NSS) offers an outstanding
opportunity for scientists and engineers interested, or actively
working in the fields of, nuclear science, high energy physics,
astrophysics and radiation detection, and related software
and simulation for various applications, to meet and discuss
with colleagues from around the world. The scientific program
provides a comprehensive review of the latest developments
in radiation instrumentation technology, their implementation
to the experiments in the basic science such as particle physics
and astrophysics and their application to bio-medical research,
homeland security, nuclear power etc. The NSS program consists
of plenary, parallel, and poster sessions. Authors are invited to
submit papers describing original, previously unpublished work
in the NSS topic areas listed in the below:
••
••
••
••
••
••
••
••
••
••
••
••
••
••
••
••
••
••
••
••
New Concepts in Solid-State Detectors
Scintillators and Scintillation Detectors
Photodetectors
Gaseous Detectors
Neutron Detectors and He-3 Alternatives Developments
Radiation Imaging Detectors
Environmental Radiation Monitors and Dosimeters
Analog and Digital Circuits
Trigger and Front-end Systems
Digitalization, Acquisition, and Signal Processing
Technologies
Radiation Damage Effects and Radiation Hard Devices
Computing and Software for Experiments
Astrophysics and Space Instrumentation
Synchrotron Radiation and FEL Instrumentation
High-Energy Physics Instrumentation
Nuclear Physics Instrumentation and Applications
Instrumentation for Bio-Medical Research
Instrumentation for Homeland Security
Instrumentation for Experimental Reactors and Nuclear
Power
Accelerator Technology
Each topic is placed under the supervision of 2 topic conveners,
who will organize the sessions in such a way as to avoid as
much as possible conflicts of interest and promote interactions
NSS Nuclear Science Symposium 53
between different subtopics.
We allocated two poster sessions of 2 hours on Tuesday (Oct. 29)
and Wednesday (Oct. 30) from 16:00 to 18:00 pm. However each
poster will stay on the board 2 days to allow individual viewing.
This year we invited 4 plenary speakers who are the most actively
leading experts in their fields ; Dr. Lyn Evans at LHC group of
Cern, Dr. Nathan Bridges at Johns Hopkins University’s Applied
Physics Laboratory, Prof. Yeongduk Kim at Sejong University,
Korea and Dr. William W. Moses at LBL.
The NSS luncheon will include an invited talk from Dr. TaeSub Chung, a recognized radiologist and professor in Yonsei
University as well as a pioneer in a new field of art, so called, the
X-ray art. He have attended and opened international exhibitions
more than 50 times around the world. Many pieces of his work
will be exhibited in the luncheon hall at the same time.
Educational Short Courses are organized focusing on topics
of interest for the scientific community. They will offer the
opportunity for very detailed presentations and discussions by
renowned experts in the corresponding fields.
Also we will introduce 3 refresher courses to allow students
to be up-to-date on the following generic subjects: Neutron
Detection, Calorimetry and Geant4 on the lunch time of Tuesday,
Wednesday and Thursday.
We would like to take this opportunity to thank all the authors
for the excellent scientific contributions to the NSS conference
this year, and also all the people who have been working so
hard to prepare this event, and in particular the large number of
reviewers as well as the topic conveners.
Gyuseong Cho
NSS Chair
Ikuo Kanno
NSS Deputy Chair
54 NSS Nuclear Science Symposium NSS Plenary Talks
NP1-1 : From the Large Hadron Collider to the next
Linear Collider
Lyndon Rees Evans
CERN, Switzerland
Monday, October 28, 08:20-09:10, GBR 102-104
Abstract
The Large Hadron Collider at CERN, in operation since 2010 has
already produced a wealth of experimental results, including the
discovery of the Higgs boson at a mass of 125 GeV. Although
the discovery potential of the LHC is large, there is broad
consensus that a Linear Collider is needed to complement
it. The unique strengths of a LC stem from the very clean
experimental environment where centre-of-mass energy and
initial polarization can both be controlled precisely.
Two variants of a LC have been studied, the ILC, using technology
that is mature where the energy can be increased in steps up
to 1 TeV, and The Compact Linear Collider (CLIC) which has the
potential to go about a factor of three higher in energy using
technology that will still take a number of years to prove. The
merits and limitations of these three machines will be discussed.
Biography
Born in 1945, Lyn Evans has spent his whole career in the field
of high energy physics and particle accelerators, participating in
all the great projects of CERN. Since 1993 he led the team that
designed, built and commissioned the LHC. He is presently a
visiting professor at Imperial College London and Director of the
Linear Collider Collaboration. Among his many honors he is a
Fellow of the American Physical Society and a Fellow of the Royal
Society. He was awarded a Special Fundamental Physics Prize in
2013 for his contribution to the discovery of the Higgs boson.
NSS Plenary Talks 55
NP1-2 : Dark Matter and Neutrino Physics from Deep
Underground Experiments
Yeongduk Kim
Sejong University, Korea
Abstract
There is plenty of evidence
that the universe is
dominated
by
dark
components.
Identifying
the dark matter is one of the
most challenging subjects
in the modern science, and
is critical to understanding
the origin and the structure
of the universe.
We
have
a
better
understanding
about
neutrinos
thanks
to
neutrino oscillation data obtained over the last decades, but the
yet unknown neutrino properties are needed to investigate the
proposed leptogenesis of the universe.
Many experiments are running or proposed at various deep
underground laboratories and new detection techniques are
emerging along with the development of nuclear science and
technology.
The state of the art underground experiments will be reviewed
focusing on the status of low mass WIMPs issue, next generation
neutrinoless double beta decay experiments, and the new,
extreme detection techniques.
Biography
Yeongduk Kim, a professor of Sejong University, had worked
on the heavy-ion and hadron physics at USA and Japan. Since
1998, his research interests are focused on the underground
nuclear and particle physics, and worked on the KIMS (Korea
Invisible Mass Search) project for the direct dark matter search.
He has also actively participated in the neutrino oscillation
experiment (RENO), which has successfully measured the 3rd
mixing angle of the neutrinos. He is also working on a short
baseline reactor neutrino experiment and conducted several
pioneering experiments to prepare a neutrinoless double beta
decay experiment, now merging to international collaboration
of AMoRE project. Professor Kim has been the PI of KIMS group
since 2012 and this year, he is appointed as a director of the
"Center for deep Underground Nuclear and Particle Astrophysics
(CUNPA)" which is one of the new basic research centers of
"Institute of Basic Science (IBS)" in Korea.
56 NSS Plenary Talks NP2-1 : The 60th Meeting of the Nuclear Science
Symposium
William Moses
Lawrence Berkeley National Laboratory, USA
Abstract
This presentation gives a brief
history of the Nuclear Science
Symposium, which is now
meeting for the 60th time, and
the first time in Asia. It starts
with the “Rochester Conference
on Scintillation Counters and
Crystal Counters,” which was
held in 1948 in Rochester, NY.
It follows its sponsorship under
the PGNS (Professional Group
on Nuclear Science) portion
of the IRE (Institute of Radio
Engineers), until 1963, when
the IRE and AIEE merged to form the IEEE. It follows the creation
of the Transactions on Nuclear Science in 1954 and the first time
the conference was called the “Nuclear Science Symposium” in
1964. It also looks at how the scope and geographical coverage
have changed over the years—spawning new conferences
(such as the Particle Accelerator Conference), developing quasiindependent portions of the conference (such as the Medical
Imaging Conference and the Symposium on Nuclear Power
Systems), and partially absorbing previously independent
conferences (such as the Room-Temperature Semiconductor
Detector Workshop).
Biography
Bill Moses received a B.A. from Dartmouth College, majoring
in Physics, in 1978, and a Ph.D. in Physics from the University
of California, Berkeley in 1986. Since then he has worked in the
Center for Functional Imaging at Lawrence Berkeley National
Laboratory, where he is presently a Senior Staff Scientist. While
his graduate work was in the field of subatomic particle physics,
his career has concentrated on instrumentation for imaging
radiation, mostly applied to Positron Emission Tomography
(PET), but also for homeland security and environmental
remediation. This has included fundamental research in
scintillators, photodetectors, and readout electronics, as well as
development of complete detector modules and tomographic
camera systems. His involvement in the NSS goes back to 1986,
when he attended his first NSS meeting. Since then he has
played many roles in the conference, and has also Chaired the
RISC (Radiation Instrumentation Steering Committee), which
provides long-range planning for the NSS.
NSS Plenary Talks 57
NP2-2 : Exploring Mars and Searching for Past Habitable
Environments with the Curiosity Rover
Nathan Bridges
Johns Hopkins University , Applied Physics Laboratory, USA
Abstract
The Mars Science Laboratory (MSL)
Curiosity rover landed on Mars in
August of 2012. Its main goal is to
characterize past environments
that may have been conducive to
the evolution and sustainability of
life. With a sophisticated set of 10
science instruments, it is a complex
robotic field geologist and
laboratory that will be exploring
Mars at least through the summer
of 2014 and probably longer. It is
driving within Gale Crater, a location on Mars that once held liquid
water and contains a large central mound with a stack of layers 3
times thicker than that in Earth’s Grand Canyon. Based on remote
observations from Mars orbit, it has been determined that many
of these layers are rich in clays and other minerals that formed or
were deposited in the presence of water. The geographic goal of
Curiosity is to drive up through the mound, named Mount Sharp,
and examine each layer. As of the writing of this abstract (April
2013), the rover is not yet at this location, but rather on the crater
floor. Nevertheless, evidence for past water has already been
found, with conglomeritic rocks indicating a past flowing river,
and mudstones formed in water under chemical conditions in
which life could have existed. As a co-investigator on MSL since
2004, and involved with Mars missions for nearly 20 years, Dr.
Bridges’ talk will focus on the development of the Curiosity rover,
its results so far, and future plans.
Biography
Dr. Nathan Bridges is a Senior Staff Scientist at Johns Hopkins
University’s Applied Physics Laboratory in Laurel, MD, USA. He
is also an Affiliate of NASA’s Jet Propulsion Laboratory, Visiting
Faculty at the California Institute of Technology, and the Secretary
for the Planetary Sciences Section of the American Geophysical
Union. He divides his time between working on Mars spacecraft
missions and scientific research. Since 1997 he has played an
active role in the Mars Pathfinder lander/rover mission (1997-98),
the HiRISE camera on the Mars Reconnaissance Orbiter (2002 –
present), and the ChemCam instrument on the Mars Science
Laboratory (2004 – present). His research focuses on the study of
geologic processes, mostly those involving wind and water, on
Earth, Mars, and Titan. This work involves a combination of field,
laboratory, image analysis, and theoretical studies. Dr. Bridges was
born in Palo Alto, CA, USA. He earned his degrees at the University
of Colorado (BA), Arizona State University (MS), and the University
of Massachusetts (Ph.D.), all in geology. He lives in Columbia, MD
with his wife Karen and children Sarah and Matthew.
58 NSS Plenary Talks NSS Luncheon
Sookmyung Gayageum Orchestra
Monday, October 28, 12:30-14:00, Hall E5 & E6
The NSS luncheon will include a Korean traditional musical
instrument performance by “Sookmyung Gayageum Orchestra”
which had made its great efforts to transmit various kinds of
music in the beautiful harmony of gayageum ensemble. In
addition to original, traditional Korean music selection, the
performance will include western classical music such as Vivaldi’s
Four Season, South American folk songs, Russian popular
songs, as well as selections from the Beatles, ABBA, Simon and
Garfunkel, etc.
NSS Luncheon 59
NSS Refresher Courses
NSS RC1: Geant4 Physics Validation
Maria Grazia Pia
CERN, Switzerland
Wednesday, October 30, 12:40-14:00, GBR 105
This Refresher Course overviews Geant4 main features, with
emphasis on Geant4 physics modeling capabilities and their use
in Monte Carlo simulation applications.
The selection of physics processes and models to be used in a
simulation is one of the most critical tasks of Geant4 experimental
applications. Geant4 users are responsible for configuring the
physics of their simulation, since Geant4 does not provide any
default physics settings. The configuration of a user application
requires in-depth knowledge of Geant4 physics functionality to
identify appropriate processes and models, and understanding
of their validity to estimate the reliability and accuracy of the
simulation results. This Geant4 simulation domain is by far the
most difficult to master, not only for novice users, but also for
more experienced ones, due to its intrinsic complexity and the
large number of available options in the toolkit.
This Refresher Course reviews Geant4 simulation capabilities
and physics modeling options; it summarizes the current status
of Geant4 physics validation and provides guidance to deal with
Geant4 physics selection in experimental applications.
NSS RC2: Calorimetry for Particle Physics
and Medical Imaging
Frank Simon
CMPI Munich, Germany
Thursday, October 31, 12:40-13:40, GBR 105
The measurement of particle energies with calorimeters is
a crucial part of particle physics experiments, and the basis
of modern diagnostics with positron emission tomography.
In experiments at the energy frontier of particle physics,
calorimeters also serve as key detectors for the reconstruction
of hadronic jets and overall event energy, which makes
them indispensable for the search for New Physics. Ongoing
technological developments are changing these devices, from
rather coarse detectors to highly granular precision instruments.
Novel measurement and reconstruction approaches promise
dramatically improved energy resolution for hadronic states, and
the addition of precise timing increases the spatial resolution in
medical imaging and turns particle physics calorimeters into 4D
detectors with powerful background rejection capabilities.
This refresher course will provide a brief introduction to the art of
energy measurements of electromagnetic and hadronic particles,
and discuss state of the art technologies and future developments.
Particular emphasis will be placed on new technologies that
enable compact, high resolution PET systems and on ideas for
next generation calorimeters in high-energy physics that push
the limits on single particle and on jet energy resolution.
60 NSS Refresher Courses Craig Levin
Jae Sung Lee
MIC
Medical Imaging Conference
I
t is our great pleasure to welcome you to the 2013 IEEE
Medical Imaging Conference (MIC) in Seoul, Korea. The
IEEE MIC is the foremost international scientific meeting on
the physics, engineering and mathematical aspects of nuclear
medical imaging. The 2013 meeting holds a special historical
meaning because the meeting is held in an Asia-pacific country
for the first time. The conference venue is COEX Convention
Center, which is one of the top 10 most active convention centers
in the world and located in the center of so famous “Gangnam”
district in Seoul.
We have worked hard to establish a high level and exciting
scientific program, together with 29 MIC Topic Advisors. In an
effort to ensure high-quality papers, two or three MIC Topic
Advisors for each MIC topic were selected for timely execution
of the various activities including the re-categorization of
papers, revision of the reviewer’s evaluation scores, and
recommendation of papers to be presented in each session.
This year, we received a total of 691 abstracts and accepted 634
of them. Of the 634 accepted abstracts, 129 have been assigned
to a plenary session, 4 non-parallel and 5 parallel oral sessions,
and joint sessions; the remaining 505 accepted ones were
assigned to the MIC poster sessions. We selected the parallel
sessions in such a way as to attempt to minimize overlapping
interests. As the physical space assigned to the poster sessions
is extensive, all the posters will be on display for the entire
duration of the MIC meeting to allow ample time for poster
viewing. As the field grows, multi-modality approaches are
becoming more important, providing unseen performance in
many medical applications. The contents of the MIC this year also
embrace them, with a growing emphasis on new X-ray detector
technologies and reconstruction algorithms and tomographic
imaging techniques in radiotherapy. Two NSS-MIC and one NSSMIC-RTSD joint sessions will be held on Tuesday as usual.
The official opening of the MIC will be on Wednesday morning
starting with plenary talks, given by two distinguished speakers.
Dr. Jaemoon Jo who is the Senior Vice President of Samsung
Electronics, leading the development team of health and
medical equipment, will speak on “See the Future of Medical
Imaging through IT/CE Technologies”. The second speaker will be
Prof. Martin G. Pomper who is the William R. Brody Professor of
Radiology at Johns Hopkins Medical School, and he will speak on
“Forays into Molecular Imaging”. The second plenary session will
MIC Medical Imaging Conference 61
be dedicated to the Hoffman and Hasegawa Awards ceremony
followed by four oral presentations that were highly rated by the
reviewers. There will be a Student Paper Competition on Friday
afternoon which is an oral session devoted to the finalists.
This year a significant number of students have been supported
with trainee grants due to the generosity of our contributors and
sponsors. A limited number of trainees were supported in part
to attend the IEEE MIC meeting by grant# R13EB0170700 from
NIH-NIBIB."
The early morning MIC refresher courses will cover the
fundamentals of CT, MRI, statistical image reconstruction, and
scintillation and solid-state detectors by prominent speakers
from academia and industry. They will provide an overview
on the fundamentals and advances in the respective areas.
On Friday, during the lunch break, there will be an additional
refresher course on journal article writing and reviewing which
will be provided by representatives from the journal Physics in
Medicine and Biology (PMB).
You are also encouraged to join the MIC banquet dinner to
socialize, relax, and enjoy the meal. The MIC dinner will feature
a spectacular non-verbal performance called NANTA that
integrates Korea’s traditional rhythm, Samulnori, with comedy.
Finally, we would like to express our special thanks to the
General Chair and all the other organizing committee members
for all their efforts to ensure the success of this very important
meeting. I wish that you all enjoy a successful conference
with rich knowledge exchange and generation of ideas for
mutual collaboration. I also hope all of you have a pleasant and
memorable time during your stay in Seoul and Korea. Welcome
to the 2013 IEEE Medical Imaging Conference in Seoul Korea.
Jae Sung Lee
MIC Chair
Craig Levin
MIC Deputy Chair
62 MIC Medical Imaging Conference MIC Plenary Talks
M01-1 : See the Future of Medical Imaging through
Consumer Electronics and Information Technologies
Jaemoon Jo
Samsung Fellow, Samsung Electronics Co. Ltd., Korea
Grand Ballroom 102, 103, 104
Abstract
Medical Imaging System has
been remarkably evolved for the
last three decades. Particularly
the imaging devices such as CT
(computed tomography) and MRI
(magnetic resonance imaging) are
well deployed on a commercial scale
with giving us much clearer view
and more information. However
the adoption of new technologies
to the medical imaging devices
has been quite sluggish compared to disruptive changes in IT
industry, due to the patient safety and conservativeness against
abrupt changes. On the other hand, huge waves of changes in
CE (consumer electronics) and IT (information technologies)
are underway and also influencing the medical equipment
industry. For example, we used to find the flat-panel detector
as a substitute for X-ray film from the only textbook. But it is
now commercially available and widely deployed thanks to the
amorphous-Si panel technology which had been commonly
used in LCD (liquid crystal display). Accordingly the X-ray industry
has been rapidly changing its paradigm from analog to digital.
Hereafter, the new technology to bring a further change in the
medical equipment industry and its value will be addressed.
Biography
Dr. Jaemoon Jo received the B.S. degree in Electronic Engineering
from the Seoul National University, Korea, in 1984, and the M.S.
and Ph.D. degrees in Electrical Engineering from the Korea
Advanced Institute of Science and Technology (KAIST), Korea,
in 1986 and 1991, respectively. In 1991, he joined Samsung
Electronics, Korea, where he is currently a Senior Vice President
and a Fellow of Samsung, leading the development team of
health and medical equipment. He has published 27 papers
and 80 patents covering the wide range of signal processing
related to DTV, digital camera, and MRI. Especially, numbers of
his patents are associated with the international standards such
as MPEG-4, H.264, VC-1.
MIC Plenary Talks 63
M01-2 : Forays into Molecular Imaging
Martin G. Pomper
Johns Hopkins Medical Institution, USA
Grand Ballroom 102, 103, 104
Abstract
Although most clinical diagnostic imaging studies employ
anatomic techniques such as computed tomography (CT) and
magnetic resonance (MR) imaging, much of radiology research
currently focuses on adapting these conventional methods to
physiologic imaging as well as on introducing new techniques
and agents for studying processes at the cellular and molecular
levels in vivo, i.e. molecular imaging. Molecular imaging
promises to provide new methods for the early detection
of disease and support for personalized therapy. Although
molecular imaging has been practiced for over 30 years in the
context of nuclear medicine, other imaging modalities have
also recently been applied to the noninvasive assessment of
physiology and molecular events. Nevertheless, there has been
sufficient experience with specifically targeted contrast agents
and high-resolution techniques for MR imaging and other
modalities that we must begin moving these new technologies
from the laboratory to the clinic. This brief overview will outline
molecular imaging from the development of targeted agents
to clinical translation, with a focus on translational (small
animal) and early clinical imaging. We will discuss the ability for
molecular imaging to assess gene expression, and the various
uses to which that can be put, and provide examples of how
existing or readily accessible molecular tracers and techniques
can provide insight into rather complex biological phenomena
in vivo. A variety of targets and disease processes will be
discussed.
Biography
Martin Pomper is the William R. Brody Professor of Radiology,
with other joint appointments, at Johns Hopkins University.
He received his undergraduate, graduate (organic chemistry)
and medical degrees from the University of Illinois at UrbanaChampaign. His postgraduate medical training was at Johns
64 MIC Plenary Talks Hopkins and included internship (Osler Medical Service),
residencies (diagnostic radiology and nuclear medicine) and
fellowship (neuroradiology). He is board-certified in diagnostic
radiology and nuclear medicine. He has been on the Radiology
faculty at Johns Hopkins since 1996. He is currently the director
of the Johns Hopkins Small Animal Imaging Resource and
associate director of the In Vivo Cellular and Molecular Imaging
Center, both funded by the National Cancer Institute to support
molecular imaging research. He is director of the Johns Hopkins
Center for Translational Molecular Imaging. He is co-director of
the Johns Hopkins Center of Cancer Nanotechnology Excellence
and the Positron Emission Tomography Center. His interests are
in the development of new radiopharmaceuticals, optical probes
and techniques for molecular imaging of cancer and central
nervous system disease. His research group consists of chemists,
physicists, molecular biologists and clinicians working together
toward clinical molecular imaging. He is the immediate past
Editor-in-Chief of Molecular Imaging and a past President of the
Society of Nuclear Medicine and Molecular Imaging’s Molecular
Imaging Center of Excellence. He has numerous patents related
to medical imaging, many of which have been licensed, as well
as several imaging agents in clinical trials. He is a co-founder of
Cancer Targeting Systems, Inc.
Key words: molecular imaging, radiopharmaceutical, positron
emission tomography, single photon emission computed
tomography, near-infrared imaging, bioluminescence imaging,
prostate cancer.
http://www.hopkinsmedicine.org/pharmacology_molecular_
sciences/faculty/bios/pomper.html
MIC Plenary Talks 65
MIC Refresher Courses
MIC RC1: Fundamentals and Recent Advances of X-ray
Computed Tomography
Jiang Hsieh
GE Healthcare Technologies, USA
Wednesday, October 30, 07:00-08:00, Grand Ballroom 103
X-ray computed tomography (CT) is arguably one of the most
widely used diagnostic imaging devices in clinical practice today.
CT has evolved from a “back room” operation to the “frontline”
diagnostic equipment, mainly due to its high sensitivity,
specificity, and ease-of-use.
The first part of this course will present a brief description of
the fundamental physics and mathematical principles of CT.
Key system performance parameters and design tradeoffs are
reviewed. Causes and corrections of various image artifacts are
extensively discussed. Potential impact of image artifacts and
performance parameters on other computer-based algorithms,
such as MIP and volume rendering, is outlined. The second part of
the tutorial will focus on the recent technology advancements in
CT. The basic principles, benefits, and inherent issues associated
with the helical (spiral) CT, multi-slice CT, and volumetric CT
will be described. Given the increased awareness of ionizing
radiation, various dose reduction technologies will be discussed.
The course will conclude with a presentation of the most recent
advancements in CT applications, such as cardiac imaging, dualenergy, and perfusion.
MIC RC2: Fundamentals and Recent Advances of MRI
Bo-Young Choe
The Catholic University of Korea, Korea
Thursday, October 31, 07:00-08:00, Grand Ballroom 103
The presentation includes the fundamentals and recent
advances of MRI and its applications. In general, the current
various imaging modalities based on MR will be presented
including fusion imaging, functional imaging, molecular
imaging and metabolic imaging. Particularly, metabolic imaging
based on MR spectroscopy refers to the use of non-invasive
and minimally-invasive imaging and spectroscopic methods
to characterize the structural, physiological, and biochemical
properties of tissues, as well as the relationships among them.
Because of the central role of energy metabolism in all cellular
processes, many of these techniques focus on the localized
quantification of metabolite concentrations and metabolic
flux rates. Methods also exist for quantifying related processes
such as blood flow. Other physiological imaging methods
exist for the determination of tissue microstructure, material
properties, and mechanical behavior. MR spectroscopy is an
essential diagnostic tool, allowing noninvasive examination of
the composition of molecules (metabolites) in tissues, thereby
identifying physiological or pathological processes. By locating
66 MIC Refresher Courses peaks in chemical shift that are the result of a shield formed
by an electronic cloud of hydrogen nuclei in molecules, MR
spectroscopy can identify metabolites. In order to do so, MR
spectroscopy needs a very homogeneous magnetic field, as well
as suppression of the water signal and/or suppression of the fat
signal, which are located in large amounts in the body. Two basic
spectroscopy sequences are STEAM and PRESS. STEAM records
only a stimulated echo, weaker in intensity than the PRESS,
which records a spin echo.
MIC RC3: Basics of Scintillation and Solid-state
Detectors
Woon-Seng Choong
Lawrence Berkeley National Lab, USA
Friday, November 1, 07:00-08:00, Grand Ballroom 103
This refresher course will cover the principles and technology of
scintillation and solid-state detectors and their applications to
medical imaging. In the first part of this course, we will review the
basic components of a scintillation detector. The properties of
scintillators and photodetectors commonly used in the design of
the detectors will be discussed. In the second part, we will review
solid-state detectors using wide band gap semiconductors as
radiation detectors for medical imaging applications. The main
properties of solid-state detectors and their characteristics
and performance will be presented. Comparisons between
scintillation detectors and solid-state detectors will be discussed
to elucidate the performance differences in terms of sensitivity,
spatial resolution, energy resolution, and timing resolution.
We will also touch upon the electronics used to read out the
electrical signal from these detectors.
MIC RC4: Workshop for new Authors and Referees:
A Guide to Best Practices in Writing and Reviewing
Scientific Papers
Simon R. Cherry
University of California Davis, USA
Steven R. Meikle
University of Sydney, Australia
Friday, November 1, 12:30-14:00, Grand Ballroom 103
One of the tenets of modern science is the critical review and
dissemination of research results by the scientific community,
most commonly through the process of peer-reviewed
publication in the scientific literature. Publication of research
allows new results and new methods to be thoroughly tested,
leading to new knowledge and advances in technology as well
as new hypotheses to be tested. The peer-review process should,
when done well, eliminate fundamental errors, ensure the
conclusions are valid and generally improve the quality of the
published article. In the field of medical imaging, a researcher
will typically publish 10-20 journal articles in the first 10 years of
their career and review at least 3 times as many articles by their
peers in the same period. And yet we typically receive no formal
training in either writing or reviewing scientific articles. These
MIC Refresher Courses 67
crucial activities can be daunting at first, especially to those for
whom English is their second language.
This workshop will cover the basic skills and techniques required
for good scientific authorship and objective peer review. It is
intended for students and early career researchers who are
relatively new to scientific publishing and reviewing. The first
part of the workshop will focus on authorship, including how to
structure the article, what tense and narrative mode to use, how
to present results optimally, how to select the most appropriate
journal and how to write a good response to reviewer critiques.
The second part of the workshop will discuss the peer-review
process, including what is expected of a reviewer, what makes
a good (and bad) review and how to evaluate your reviewing.
We will also briefly discuss the different models of scientific
publishing and peer review.
About the speakers:
Simon Cherry is currently the Editor-in-Chief of Physics in
Medicine and Biology and has published more than 180 papers
in the field of biomedical imaging. He has also served on the
editorial board of Molecular Imaging and Molecular Imaging
and Biology, and has reviewed for many of the top journals
including Science and Nature Medicine. Steven Meikle is
currently a member of the Editorial Board of Physics in Medicine
and Biology and has published more than 80 journal articles in
the field of biomedical imaging. He has reviewed for the leading
journals in the field such as Physics in Medicine and Biology and
IEEE Transactions on Medical Imaging, as well as highly ranked
multidisciplinary science journals such as Nature Medicine.
MIC RC5: Fundamentals of Statistical Imaging
Reconstruction
Johan Nuyts
KU Leuven, Belgium
Saturday, November 2, 07:00-08:00, Grand Ballroom 103
The principles of maximum-likelihood reconstruction for
emission and transmission tomography will be briefly described.
In emission tomography, the ML algorithm has become the
standard reconstruction method since several years, because
it outperforms analytical methods with respect to visual image
quality, signal-to-noise ratio and robustness to irregularities in
the design of the acquisition system. In CT, the performance
of analytical reconstruction methods is usually excellent.
Nevertheless, statistical reconstruction receives increased
attention, in particular because it enables dose reduction with
preserved image quality.
Statistical methods can also handle more complex acquisition
models, and it is often observed that the use of a more accurate
model of the data acquisition physics leads to a higher signalto-noise ratio and a reduction of reconstruction artifacts. As an
example, the modeling of the finite system resolution during
reconstruction not only increases the resolution of the final
image, it also tends to reduce the propagation of noise.
Even with the increased success of statistical methods, the study
68 MIC Refresher Courses of analytical reconstruction algorithms and reconstruction theory
remains very important. Examples are the recent results about
what can be reconstructed “exactly” from truncated data, and a
new result about attenuation correction in time-of-flight PET.
These results predict the performance of statistical methods in
these situations, and may provide useful inspiration for system
designers.
MIC Refresher Courses 69
RTSD
Jang Ho Ha
Ralph James
20th International Workshop on
Room-Temperature Semiconductor
X-Ray and Gamma Ray Detectors
I
t is our great pleasure to welcome you to the 20th International
Workshop on Room-Temperature Semiconductor X-Ray
and Gamma-Ray Detectors. This conference represents the
principal forum for scientists and engineers working to develop
new solid-state radiation detectors and imaging arrays.
For those of you who have attended the past workshops,
welcome back! As Chairs of the workshop, we are particularly
delighted to make the acquaintance of new contributors, as
there are many challenges that lie ahead, some of which will be
solved by those who are relatively new to the subject area.
It is our sincere hope that this conference will facilitate crossfertilization of research and spawn creative ideas, and that these
ideas will be incorporated into knowledge, leading to new
directions. We urge you to take time at this meeting to build
on the commonality of your work with colleagues within the
RTSD, NSS and MIC conferences, and to share your data, energy,
and experience, and explore ways to enhance cooperation and
collaboration with others. We have chosen to hold this meeting in
conjunction with the IEEE NSS and MIC meetings for the purpose of
encouraging information exchange between a much larger body
of scientists and engineers who have an in-depth knowledge of
detectors, instrumentation, nuclear science and technology, and
medical imaging.
Joint sessions between NSS, MIC and RTSD play a major role for
the meeting in 2013. These joint sessions are clearly identified in
the program booklet, and we request everyone’s participation to
help bring people together with common interests and offer the
right environment for the creation of new and fruitful associations.
The well-known RTSD luncheon will be held on Tuesday, October
29 at the Fradia Restaurant. You are encouraged to purchase
your ticket(s) when you pre-register as seating will be limited.
We would like to thank the speakers and attendees for their
contributions, the workshop sponsors for their kind support,
and express our gratitude to the session chairs and members of
the RTSD Steering Committee, who have offered their time to
enlist the involvement of most researchers in the field.
Ralph James
RTSD Co-Chair
70 RTSD Jang Ho Ha
RTSD Co-Chair
RTSD Luncheon
The RTSD Luncheon will be held Tuesday, October 29, 12:0014:00 at Fradia Restaurant floating on the Hangang (River) with
excellent riverside views. Free shuttle bus service between COEX
and Fradia will be provided. The bus will leave COEX at 12:00 and
the return bus will depart from Fradia at 14:00. Registration for
RTSD luncheon is available via the conference web site. (www.
nss-mic.org/2013). Since the seats are limited, first-come, firstserved basis to proceed.
RTSD Luncheon 71
J
Steve Meikle
Patrick Le Dû
Joint Sessions
oint sessions between the NSS, MIC, and RTSD communities
will be organized as usual on the second day of the
conference.
Abstract submissions that are of common interest to the NSS/
MIC/RTSD community on advanced tools and technologies
might be eligible for selection to the special NSS/MIC, NSS/RTSD,
and combined NSS/MIC/RTSD joint oral sessions planned for
Tuesday, October 29th. The final selection will be made jointly by
the NSS, MIC, and RTSD organizers. Topics of particular relevance
to these sessions are for example:
••
••
••
••
••
••
••
••
Semiconductor-Based Imaging Systems
Digitization, acquisition, signal and image processing
Simulation and modelling
Innovative radiation instrumentation Techniques for Small
and Large Medical Imaging Devices (PET,SPECT ….)
Scintillators and Photodetectors
Image Guided Radio and Particle Beam Therapy
Solid State Dosimetry
Advanced Multimodality Endoscopic Instruments
Patrick Le Dû
Joint Sessions Co-Chair
72 Joint Sessions Steve Meikle
Joint Sessions Co-Chair
Notes
Notes
Notes
Notes
Scientific Program
07:00
07:30
08:00
Saturday, 26 October
Hall E2
Hall E3
Hall E4
08:00
08:30
08:30
07:00
07:30
10:30
11:00
11:30
12:00
12:30
13:00
13:30
14:00
14:30
15:00
15:30
16:00
16:30
SC1 - Radiation
Detection ...
10:00
SC1 - Radiation
Detection ...
09:30
SC1 - Radiation
Detection ...
09:00
SC1 - Radiation
Detection ...
SC2 - Integrated
Circuits for Time ...
15:30
SC2 - Integrated
15:00
SC2 - Integrated
13:30
SC2 - Integrated
13:00
SC3 - Experimental
Techniques ...
12:30
SC3 - Experimental
Techniques ...
12:00
SC3 - Experimental
Techniques ...
10:30
SC3 - Experimental
Techniques ...
10:00
14:30
16:00
16:30
17:00
17:00
17:30
17:30
18:00
18:00
18:30
18:30
19:00
19:00
19:30
19:30
SC1 - Radiation
Detection ...
14:00
SC1 - Radiation
Detection ...
SC4 - Geant4
Simulation Toolkit
11:30
SC1 - Radiation
Detection ...
SC4 - Geant4
Simulation Toolkit
SC5 - Medical Image
Reconstruction
11:00
SC1 - Radiation
Detection ...
SC4 - Geant4
Simulation Toolkit
SC5 - Medical Image
Reconstruction
09:30
SC4 - Geant4
Simulation Toolkit
SC5 - Medical Image
Reconstruction
NWK4 - Towards a 10 ps Single Soft Photon Detector
NWK2 - Detectors in Radiation Therapy and Microsurgery with Synchrotron
Radiation X-Rays: Dosimetry, Quality Control and Image Guidance
NWK3 - New Detector Technologies in Radiation Dosimetry and its
Applications
NWK1 - New Technologies in Hadron Therapy: Particle Imaging and Optimization of Treatment Delivery
SC5 - Medical Image
Reconstruction
09:00
Sunday
Sunday, 27 October
Hall E2
Hall E3
Hall E4
ASEM 201
ASEM 203 A&B
ASEM 208 A&B
78 78
Sunday
Sunday - Workshop Oral
Presentations
NWK1 - New Technologies in Hadron Therapy
HT1 Update on Existing Hadron Therapy
Facilities and New Horizons
Sunday, Oct. 27 08:00-09:45, ASEM 201
Session Chairs: Patrick J. Le Du, IPNL, IN2P3, France
Anatoly Rosenfeld, University of Wollongong,
Australia
HT1-1 (08:00) Technologies for Next-Generation Proton and Ion
Beam Therapy Systems
C. Johnstone, F. DeJongh, Particle Accelerator Corportion, USA; R. Schulte,
Loma Linda University Medical Center, USA; G. Coutrakon, J. Welsh,
Northern Illinois University, USA
HT1-2 (08:30) Proton Therapy at Mayo Clinic
C. Beltran, Mayo Clinic, MN
HT1-3 (08:50) Two Years of Protons and Carbon Ions Treatments at
CNAO:status and Future Optimizations of the Dose Delivery System
S. Giordanengo1, M. Donetti2, M. A. Garella2, F. Marchetto1, A. Attili1, L.
Capasso1, M. Ciocca2, M. A. Hosseini1,3, A. Mirandola2, S. Molinelli2, G.
Russo1, C. Peroni1,3, R. Sacchi1,3, R. Cirio1,3
1
Istituto Nazionale di Fisica Nucleare, Italy; 2Centro Nazionale di
Adroterapia Oncologica, Italy; 3University of Torino, Italy
HT1-4 (09:10) Medical Physics in Carbon Therapy at HIMAC
S. Fukuda
Research Center for Charged Particle Therapy, NationalInstitute of
Radiological Sciences (NIRS), Japan
HT1-5 (09:30) ELIMED: MEDical and Multisciplinary applications
with Laser-Driven Beams at ELI-Beamlines
P. G. A. Cirrone1, M. Carpinelli2,3, G. Cuttone1, G. Korn4, M. Maggiore1, M.
Daniele4, L. Manti1, I. Petrovic5, M. Renis6, A. Ristic-Fira5, F. Romano1, G.
Schettino7, F. Schillaci1,4, V. Scuderi1,4, A. Tramontana1,6
1
INFN, Italy; 2INFN Section of Cagliari, Italy; 3University of Pisa, Italy;
4
Institute of Physics of the ASCR ELI-Beamlines project, Czech Republic;
5
Vinča Institute of Nuclear Sciences, Serbia; 6University of Catania, Italy;
7
National Physics Laboratory (NPL), United Kingdom
HT2 Status of Proton and Ion Transmission
Imaging -Status of in vivo Dosimetry with
Prompt Secondary Radiation
Sunday, Oct. 27 10:20-12:20, ASEM 201
Session Chairs: Alberto Del Guerra, University Pisa, Italy
Taiga Yamaya, National Institute of Radiological
Sciences, Japan
Reinhard W. Schulte, Department of Radiation
Medicine, Loma Linda University Medical Center,
United States
HT2-1 (10:20) Status of the Clinical Head Scanner for Proton CT at
LLUMC
R. Schulte, Loma Linda University Medical Center, USA
HT2-2 (10:35) Status of the Italian Proton Computed Tomography
Project
M. Bruzzi1,2, M. Bucciolini3,2, M. Carpinelli4,5, C. Civinini2, G. Cuttone6, D. Lo
Sunday - Workshop Oral Presentations 79
Sunday
Presti7,8, S. Pallotta3,2, C. Pugliatti8,7, N. Randazzo7, F. Romano6, V. Sipala4,5,
M. Scaringella9, C. Stancampiano6, C. Talamonti2,3, M. Tesi9, E. Vanzi10, M.
Zani2,3
1
Florence, Italy; 2INFN FI, Italy; 3BIO, Italy; 4INFN CA, Italy; 5Sassari, Italy;
6
INFN LNS, Italy; 7INFN CT, Italy; 8CATANIA, Italy; 9Firenze 2, Italy; 10Careggi,
Italy
HT2-3 (10:50) Front End and DAQ for a High Rate pCT Detector
P. Rubinov, Fermi National Accelerator Laboratory, USA
On behalf of the NIU-Fermilab-Delhi pCT collaboration
HT2-4 (11:05) Proton Beam Radiography set-up with a Timepix
based TPC
J. Visser1, S. Brandenburg2, M. van Beuzekom1, A. Biegun2, M. J. van
Goethem3, B. Huisman1, P. Tsopelas1, N. Ghazanfari2
1
Nikhef, The Netherlands; 2Kernfysisch Versneller Instituut, The Netherlands;
3
University Medical Center Groningen, The Netherlands
HT2-5 (11:20) Development of Prompt Gamma Based In-Vivo
Range Verification Systems in Proton Radiotherapy.
J. C. Polf, University of Maryland School of Medicine, USA; D. S. Mackin, S.
Beddar, University of Texas MD Anderson Cancer Center, USA
HT2-6 (11:35) Prompt Gamma Imaging with a Slit Camera for RealTime Range Control in Proton Therapy: First Experimental Results
at Clinical Beam Currents
I. Perali1,2, A. Celani3, E. Baio1, C. Fiorini1,2, T. Frizzi3, E. Clementel4, S.
Henrotin5, G. Janssens5, D. Prieels5, F. Roellinghoff5, J. Smeets5, F.
Stichelbaut5
1
Politecnico di Milano, Italy; 2INFN, Italy; 3XGLab, Italy; 4ICTEAM Institute,
Universit Catholique de Louvain, Belgium; 5Ion Beam Applications SA,
Belgium
HT2-7 (11:50) Status Review of Ion Therapy Monitoring by Prompt
Secondary Radiation.
D. Dauvergne, E. Testa
IPNL, CNRS/IN2P3 and Universit Lyon 1, France
HT2-8 (12:05) Recent Developments in SiPM-Based Time-of-Flight
Detectors and Their Potential for in-Situ PET and Prompt Gamma
Imaging
D. R. Schaart
Delft university of Technology, The Netherlands
HT3 Status of in vivo Dosimetry with Positron
Emission Tomography- Update on Novel
Instrumentation and Monte Carlo Simulations
for Hadron Therapy
Sunday, Oct. 27 13:20-16:00, ASEM 201
Session Chairs: Hsiao-Ming Lu
Sam Beddar, University of Texas, MD Anderson Cancer
Center, United States
Dale A. Prokopovich, Australian Nuclear Science and
Technology Organisation, Australia
HT3-1 (13:20) INSIDE: Innovative Solutions for Dosimetry in
Hadrontherapy
A. Del Guerra, Universityof Pisa, ITALY
On behalf of the INSIDE Collaboration (Pisa,Bari, Roma
HT3-2 (13:40) Development of an Open-Type PET for 3D Dose
Verification in Carbon Ion Therapy
T. Yamaya1,2, E. Yoshida1, H. Tashima1, Y. Nakajima1, F. Nishikido1, Y.
Hirano1, N. Inadama1, T. Shinaji1,2, H. Haneishi2, M. Suga2, S. Sato1, T.
Inaniwa1
1
National Institute of Radiological Sciences, Japan; 2Chiba University,
Japan
HT3-3 (13:55) Dual-Head In-Situ vs. Full-Ring In-Room TOF-PET for
Quality Assurance in Proton Therapy: a Patient Case Study
P. Dendooven, KVI, University of Groningen, The Netherlands
80 Sunday - Workshop Oral Presentations Sunday
HT3-4 (14:10) Current Status of 4D Offline PET-Based Treatment
Verification at the Heidelberg Ion-Beam Therapy Center
C. Kurz1, J. Bauer1, D. Unholtz1, S. Combs1, J. Debus1, D. Richter2, R.
Kaderka2, C. Bert2,3, K. Stuetzer4, C. Gianoli1,5, G. Baroni5, K. Parodi6
1
Heidelberg University Hospital, Germany; 2GSI Helmholtzzentrum fuer
Schwerionenforschung, Germany; 3University Clinic Erlangen, Germany;
4
Technische Universitaet Dresden, Germany; 5Politecnico di Milano, Italy;
6
Ludwig-Maximilian-University, Germany
HT3-5 (14:25) Proton Imaging Based on Time-Resolved Dose
Measurements
H.-M. Lu, M. Testa, Massachusetts General Hospital, Harvard University
Medical School, USA; H. Bentefour, Ion Beam Applications, Belgium
HT3-6 (14:45) Fast High-Resolution Measurements of Clinical
Hadron Therapy Beams Using a Large Liquid Scintillator Detector
S. Beddar1, D. Robertson1, C. Hui1, L. Archambault2, N. Sahoo1, R. Mohan1
1
University of Texas, MD Anderson Cancer Center, USA; 2Centre Hospitalier
Universitaire de Quebec, Canada
HT3-7 (15:00) Monte-Carlo Study on Prompt-Gamma Imaging
Through Multi-Slat Collimators: Intrinsic Performances with Simple
and Anthropomorphic Phantoms
P. Cambraia Lopes1,2,3, H. Simões2, A. K. Biegun1,4, P. Dendooven4, D. C.
Oxley4, K. Parodi3,5, D. R. Schaart1, P. Crespo2,6
1
Delft University of Technology, The Netherlands; 2Laboratório de
Instrumentação e Física Experimental de Partículas, Portugal; 3Heidelberg
University Clinic, Germany; 4University of Groningen, The Netherlands; 5Ludwig
Maximilian University, Germany; 6Universidade de Coimbra, Portugal
HT3-8 (15:15) Recent Updates and Plan in Geant4 Based Particle
Therapy System Simulation Framework
T. Aso1, T. Akagi2, G. Iwai3, A. Kimura4, Y. Maeda5, N. Matsufuji6, T. Nishio7,
C. Omachi8, T. Sasaki3, W. Takase3, T. Toshito8, T. Yamashita2, Y. Watase3
1
Nagaoka University of Technology, Japan; 2Hyogo Ion Beam Medical Center,
Japan; 3High Energy Accelerator Research Organization, Japan; 4Ashikaga
Institute of Technology, Japan; 5Proton Therapy Center Fukui Prefectural
Hospital, Japan; 6National Institute of Radiology Science, Japan; 7National
Cancer Center East Hospital, Japan; 8Nagoya Proton Therapy Center, Japan
HT3-9 (15:30) SOI Microdosimetry of a Scanning Spread Out Bragg
Peak at the Heidelberg Ion Therapy Facility
D. A. Prokopovich1, J. Livingstone2, M. Martisikova3, M. Petasecca2, M. L.
F. Lerch2, M. I. Reinhard1, A. B. Rosenfeld2
1
Australian Nuclear Science and Technology Organisation, Australia;
2
University of Wollongong, Australia; 3German Cancer Research Center,
Germany
HT3-10 (15:45) ΔE-E Detector System for Characterisation of C-12
Therapeutic Beam for in Field and Out of Field.
T. L. Tran1, S. Guatelli1, D. Prokopovich2, D. Bolst1, Y. Keat3, M. Petasecca1, M.
Lerch1, M. Reinhard2, A. Fazzi4, S. Agosteo4, N. Matsufuji5, A. Rozenfeld1
1
University of Wollongong, Australia; 2Australian Nuclear Science and
Technology Organisation, Australia; 3Universiti Sains Malaysia, Malaysia;
4
Politecnico di Milano, Italy; 5National Institute of Radiological Science,
Japan
HT4 Future of Hadron Therapy Technology
-Round table discussion
Sunday, Oct. 27 16:00-16:20, ASEM 201
Session Chairs: Anatoly Rosenfeld, University of Wollongong,
Australia
Patrick J. Le Du, IPNL, IN2P3, France
HT4-1 (16:00) Successfully Managing Technology Transfer in
Hadron Therapy
G. Barnett, Research Technology Enterprise Initiative, USA; R. Schulte,
Loma Linda University Medical Center, USA; Y. Censor, University of Haifa,
Israel; N. Karonis, G. Coutrakon, Northern Illinois University, USA; A.
Rosenfeld, University of Wollongong, Australia
NWK3 - New Detector Technologies in
Radiation Dosimetry and its Applications
Sunday
RD1 Radiation Protection and Dosimetry
Sunday, Oct. 27 13:30-15:40, ASEM 208 A&B
Session Chair: Marco Silari, CERN, Switzerland
RD1-1 (13:30) Status Report on the Use of the Medipix Technology
for Space Radiation Dosimetry
L. S. Pinsky1, M. Kroupa1, J. P. Idarraga-Munoz1, S. M. Hoang1, E. J.
Semones2, A. A. Bahadori2, J. Jakubek3, S. Pospisil3, D. Turecek3, N. N.
Stoffle1,2
1
University of Houston, USA; 2NASA/Johnson Space Center, USA; 3Czech
Technical University in Prague, Czech Republic
RD1-2 (13:55) Development of Advanced Detectors for Radiation
Protection and Radiation Dosimetry
F. Murtas, INFN, Italy; M. Silari, CERN, Swizerland
RD1-3 (14:20) MX-10 - Pixel Particle Detector
V. Viswanathan, S. Martinek, M. Honig, P. Hubner
JABLOTRON ALARMS a.s., Czech Republic
RD1-4 (14:30) A Novel Neutron Gamma Discrimination Technique
for the New LUPIN Pulsed Neutron Detector
C. A. Cassell1, M. Caresana1, M. Ferrarini2, E. Hohmann3, G. P. Manessi4, S.
Mayer3, M. Silari4, V. Varoli1
1
Politecnico di Milano, Italy; 2Fondazione CNAO, Italy; 3Paul Scherrer
Institute, Switzerland; 4CERN, Switzerland
RD1-5 (14:40) 55Fe Measurements in Radioactive Waste with a
Triple GEM Detector
F. Murtas1,2, S. Puddu1,3, M. Silari1
1
CERN, Switzerland; 2INFN, Italy; 3Bern University, Switzerland
RD1-6 (14:50) Radon Measurements with Timepix
M. Caresana1, L. Garlati1, F. Murtas2,3, C. T. Severino3,4, M. Silari4
1
Politecnico di Milano, Italy; 2LNF-INFN, Italy; 3University of Bern,
Switzerland; 4CERN, Switzerland
RD1-7 (15:00) Simulation of Neutron Dosimetry with CR-39 Track
Detectors and Comparison Against Experimental Calibration
Campaigns
M. Caresana1, A. Sashala Naik1,2, S. Rollet3, M. Ferrarini4
1
Politecnico di Milano, Italy; 2Mi.am srl, Italy; 3AIT-Austrian Institute of
Technology, Austria; 4Fondazione CNAO, Italy
RD1-8 (15:10) Mixed Field Data Analysis with Timepix at the CERF
Facility
S. P. George, C. Severino, F. Murtas, M. Silari, CERN, Switzerland
RD1-9 (15:20) A Novel Silicon Microdosimeter Using 3D Sensitive
Volume: Modeling the Response in Neutron Field Typical of
Aviation
T. L. Tran1, S. Guatelli1, D. Prokopovich2, M. Reinhard2, M. Lerch1, J.
Ziegler3, M. Zaider4, A. Rozenfeld1
1
Technology Organisation, Australia; 3United States Naval Academy, USA;
4
Memorial Sloan-Kettering Cancer Centre, USA
RD1-10 (15:30) Commercially Available Fast Neutron Detectors for
Neutron Dosimetric Studies
U. Gendotti, R. Chandra, G. Davatz
Arktis Radiation Detectors Ltd, Switzerland
82 Sunday - Workshop Oral Presentations RD2 Radiation Dosimetry in the Medical Field
Sunday, Oct. 27 16:30-19:10, ASEM 208 A&B
Sunday
Session Chair: Tomas Kron, Peter MacCallum Cancer Centre,
Australia
RD2-1 (16:30) Online In-Vivo Dosimetry of Rectal Dose Using
Plastic Scintillation Detectors for Prostate Patients
S. Beddar, L. Wootton, R. Kudchadker, S. Choi, T. Pugh, A. Lee
University of Texas, MD Anderson Cancer Center, USA
RD2-2 (16:55) Performance of a Novel, Water-Equivalent
Commercial Scintillation Dosimeter for Small Fields and High Dose
Rate External Beam Dose Measurements
L. Beaulieu1,2, L. Archambault1,2, D. Therriault2, L. Gingras1,2, S. A. Beddar3
1
Universit Laval, Canada; 2CHU de Qubec, Canada; 3MDAnderson Cancer
Centre, USA
RD2-3 (17:20) Polycrystalline CVD Diamond Matrix Dosimeters for
Intensity Modulated Radiotherapy (IMRT)
M. Bruzzi1,2, M. Bucciolini3,2, C. Talamonti3,2, M. Scaringella4, E. Pace1,2, A.
de Sio1,2, L. Tozzetti1,2, M. Zani3,2
1
Florence, Italy; 2INFN FI, Italy; 3BIO, Italy; 4Firenze 2, Italy
RD2-4 (17:30) Micromachining and 3D Technology for
Microdosimetry in Charge Particle Therapy and Space Radiation
Protection
A. Kok, SINTEF, Norway, On behalf of the 3DMiMic Collaboration
RD2-5 (17:40) A Multicentre Trial for Stereotactic Ablative
Radiotherapy of Lung Cancer: Assessing the Dose Delivery to a
Moving Target Using Radiochromic Film
T. Kron, N. Hardcastle, P. Lonski, N. Clements, D. Ball
Peter MacCallum Cancer Centre, Australia
RD2-6 (17:50) Real-Time Low Dose Rate Dosimetry for
Interventional Radiology
J. Boivin1,2, L.-P. Gagnon1,2, S. A. Beddar3, M. Guillemette1,2, L. Beaulieu1,2
1
Universit Laval, Canada; 2CHU de Quebec, Canada; 3MD Anderson Cancer
Canter, USA
RD2-7 (18:00) Measurement of Background Scatter Radiation in CT
Scan Rooms Using Energy-Resolving Hybrid Pixel Detectors
W. S. Wong1, E. Frodjh1, J. Damet2, C. Elandoy2, M. Campbell1
1
CERN, Switzerland; 2University Hospital of Vaud, Switzerland
RD2-8 (18:10) BrachyView: Post-Implant Computed Tomography
Dosimetry Quality Assurance Using Timepix Detectors
K. J. Loo1,2, M. Safavi-Naeini1, M. Petasecca1, Z. Han1, M. Lerch1, J. A.
Bucci3, J. Jakubek2, J. Zemlicka2, S. Pospisil2, M. Zaider4, A. B. Rosenfeld1
1
Centre for Medical Radiation Physics, Australia; 2Institute of Experimental
and Applied Physics, Czech Republic; 3St George Cancer Care Centre,
Australia; 4Memorial Sloan-Kettering Cancer Center, USA
RD2-9 (18:20) Characterization of a 2D Diode Array as a
Transmission Mode Detector and a Study of the Effect of Scattered
Electrons
Z. A. Alrowaili1,2, B. Oborn3, M. Petasecca1, P. Metcalfe1, M. L. F. Lerch1, A.
B. Rosenfeld1
1
university of Wollongong, Australia; 2Aljouf University, Saudi Arabia;
3
Wollongong Hospital, Australia
RD2-10 (18:30) Characterization of a New Photon Counting
Detector with XRF
F. Bisello1,2, I. Ritter2, F. Tennert2, T. Gabor1,3, M. Campbell4, W. Wong4, S.
Woelfel1, G. Anton2, N. Michel5, T. Michel2
1
IBA Dosimetry Schwarzenbruck, Germany; 2University of Erlangen,
Germany; 3Frauhofer Institute for Solar Energy System ISE, Germany; 4CERN,
Switzerland; 5Customized Microelectronic Solutions, Germany
RD2-11 (18:40) Efficiency calibration of a high purity Germanium
(HPGe) detector using Monte Carlo simulation
R. Faghihi, B. Zeinali, S. Sina, Shiraz University, Iran
Notes
Sunday
84 Sunday
Notes
85
07:00
07:30
08:00
Monday, 28 October
GBR102-104
08:30
09:00
09:30
10:00
10:30
11:00
11:30
12:00
12:30
13:00
13:30
14:00
14:30
15:00
15:30
16:00
16:30
17:00
17:30
18:00
GBR102
GBR101
N3: X-ray/Neutron Imaging
N2: Gaseous Detectors I :
Recent Developments
N1: Astrophysics and Space
Instrumentation I
N7: Neutron Detection I :
Detectors
N6: HEP Computing
N5: High Energy Physics
Instrumenation I
NP2: NSS Plenary II
GBR104
N8: Photodetectors I
SC6 - Physics and
Design of Detectors for
SPECT and PET
N4: Scintillator Properties
R02: CdZnTe I
SC6 - Physics and
SPECT and PET
GBR105
R01: Spectrometer Systems for
Homeland Security
SC6 - Physics and
SPECT and PET
SC7 - Molecular
Imaging
R04: TlBr and BiI3
SC6 - Physics and
SPECT and PET
SC7 - Molecular
Imaging
Hall E1&E2
Hall E3
SC7 - Molecular
Imaging
MWK3 - Fundamentals and Applications of Photon-Counting
X-ray Detectors
SC7 - Molecular
Imaging
R03: CdTe
NP1: NSS Plenary I
18:30
19:00
19:30
Monday
MWK1 - Quantitative Four-Dimensional Image Reconstruction
Methods
NSS Luncheon
Hall E4
ASEM 201
Hall E5 and E6
ASEM 208 A&B
86 86
Monday
Monday - NSS Oral
Presentations
NP1 NSS Plenary I
Monday, Oct. 28 08:00-10:00 GBR 102-104
Session Chairs: Gyuseong Cho, Korea Advanced Institute of Science
and Technology, South Korea
Ikuo Kanno, Department of Nuclear Engineering,
Kyoto University, Japan
(08:00) Opening Address
H. Kim, General Chair, Yonsei University, Korea
(08:10) Congratulatory Address
M. Choi, Ministry of Science, ICT & Future Planning, Korea
NP1-1 (08:20, invited) From the Large Hadron Collider to the next
Linear Collider
L. R. Evans, European Centre for Particle Physics (CERN), Switzerland
NP1-2 (09:10, invited) Dark Matter and Neutrino Physics from
Deep Underground Experiments
Y. Kim, Sejong University, Korea
NP2 NSS Plenary II
Monday, Oct. 28 10:30-11:50 GBR 102-104
Session Chairs: Ikuo Kanno, Department of Nuclear Engineering,
Gyuseong Cho, Korea Advanced Institute of Science
and Technology, South Korea
(10:30) NPSS Award Ceremony
H. Kim, General Chair, Yonsei University, Korea
NP2-1 (11:20, invited) The 60th Meeting of the Nuclear Science
Symposium
W. Moses, Lawrence Berkeley National Laboratory, USA
NP2-2 (11:40, invited) Exploring Mars and Searching for Past
Habitable Environments with the Curiosity Rover
N. Bridges, Applied Physics Laboratory, USA
N1 Astrophysics and Space Instrumentation I
Monday, Oct. 28 14:00-16:00 GBR 101
Session Chairs: Alex Nielsen, Institute for Gravitational Physics (AEI),
Germany
Carsten Rott, Sungkyunkwan University, South Korea
N1-1 (14:00, invited) KAGRA Large-Scale Cryogenic Gravitational
Wave Telescope in Japan
S. Miyoki, Institute for Cosmic Ray Research, The University of Tokyo, Japan
On behalf of the KAGRA Collaboration
N1-2 (14:30) Progress and Future of Large Area Silicon Drift
Detectors
A. G. Vacchi, INFN Italian Institute for Nuclear Physics, Italy
On behalf of the Redsox collaboration
N1-3 (14:45) Laser-Machined Tantalum Collimators for X-Ray
Timing Missions
M. Christophersen, J. A. Christodoulides, B. F. Phlips, P. S. Ray
U.S. Naval Research Laboratory, USA
Monday - NSS Oral Presentations 87
Monday
N1-4 (15:00) Development of SOI Pixel Sensors for X-Ray
Astronomy
T. Tanaka, S. Nakashima, H. Matsumura, T. G. Tsuru, Kyoto University,
Japan; A. Takeda, Y. Arai, KEK, Japan
N1-5 (15:15) A Scientific Trigger Unit for Space-Based Real-Time
Gamma Ray Burst Detection (I - Scientific Software Model and
Simulations)
S. Schanne, H. Le Provost, F. Chateau, B. Cordier, M. Cortial, D. Gotz, A.
Gros, P. Kestener, P. Sizun
CEA Saclay, France
N1-6 (15:30) Study of Event Reconstruction Algorithm for a LargeScale Si/CdTe Multilayer Compton Camera
Y. Ichinohe1,2, S. Takeda1, H. Odaka1, S. Watanabe1, T. Fukuyama1,2, M.
Ohta1, T. Takahashi1,2, K. Nakazawa2, H. Tajima3, Y. Fukazawa4, T. Tanaka5
1
Institution of Space and Astronautical Science, Japan Aerospace
Exploration Agency, Japan; 2Graduate School of Science, University
of Tokyo, Japan; 3Solar-Terrestrial Environment Laboratory, Nagoya
University, Japan; 4High Energy & Optical/Infrared Astrophysics Laboratory,
Graduate School of Science, Hiroshima University, Japan; 5Graduate School
of Science, Kyoto University, Japan
N1-7 (15:45) In-Orbit Performance and Background of MAXI/GSC
Gas Counters Operated on the International Space Station since
2009
M. Sugizaki, RIKEN, Saitama
On behalf of the MAXI Team
N2 Gaseous Detectors I : Recent Developments
Monday, Oct. 28 14:00-16:00 GBR 102
Session Chairs: Leszek Ropelewski, CERN, Switzerland
Graham Smith, Brookhaven National Laboratory,
United States
N2-1 (14:00) The GEM-based Inner Tracker of the KLOE-2
experiment
G. Morello1, A. Balla1, G. Bencivenni1, P. Branchini2, A. Budano2, M.
Capodiferro3,4, S. Cerioni1, P. Ciambrone1, E. Czerwinski5, G. De Robertis6,
A. Di Cicco2, A. Di Domenico3,4, D. Domenici1, J. Dong1, G. Fanizzi6, G.
Felici1, M. Gatta1, N. Lacalamita6, R. Liuzzi6, F. Loddo6, M. Mongelli6, A.
Pelosi3,4, L. Quintieri1, A. Ranieri6, E. Tskhadadze1, V. Valentino6
1
INFN Laboratori Nazionali di Frascati, Italy; 2INFN Sezione di Roma Tre, Italy;
3
INFN Sezione di Roma, Italy; 4Università Sapienza di Roma, Italy; 5Institute of
Physics, Jagiellonian University, Poland; 6INFN Sezione di Bari, Italy
N2-2 (14:15) Inner Chamber of Belle II CDC
K. Chaiwongkhot, U. Tippawan, Chiang Mai University, Thailand;
T. Kohriki, N. Taniguchi, S. Uno, High Energy Accelerator Research
Organization (KEK), Japan; M. H. Nouxman, K. A. Azmi, Malaya University,
Malaysia; S. Minemura, Nara Women’s University, Japan
N2-3 (14:30) Design, Construction and Testing of the Straw Tracker
for the NA62 Experiment
H. Danielsson, CERN, Switzerland
On behalf of the NA62 Collaboration
N2-4 (14:45) Study of a Short Drift GEM Detector for Future
Tracking Applications at RHIC
B. Azmoun1, T. Cao2, M. Purschke1, C. Woody1
1
Brookhaven National Laboratory, USA; 2Stony Brook University, USA
N2-5 (15:00) Development of Large Size Photon Detectors Based
on THGEMs and Hybrid MPGD Architectures
F. Tessarotto, INFN - Trieste, ITALY
On behalf of the COMPASS THGEM Group
N2-6 (15:15) Development of a Hadron Blind Detector for the
J-PARC E16 Experiment
K. Kanno, Graduate school of Science, The University of Tokyo, Japan
On behalf of the J-PARC E16 collaboration
88 Monday - NSS Oral Presentations Monday
N2-7 (15:30) The CALICE Digital Hadron Calorimeter: Calibration
and Response to Pions and Positrons
B. Bilki, K. Francis, J. Repond, J. Smith, L. Xia
Argonne National Laboratory, USA
N2-8 (15:45) The Analog Detector of the ARGO-YBJ Experiment
S. Mastroianni, INFN, Italy
On behalf of the ARGO-YBJ Collaboration
N3 X-ray/Neutron Imaging
Monday, Oct. 28 14:00-16:00 GBR 104
Session Chairs: Yong Hyun Chung, Department of Radiological
Science, Yonsei University, South Korea
Ronald M. Keyser, Software & Information Services,
United States
N3-1 (14:00, invited) X-Ray Detectors for Security CT Imaging
R. Deych, D. Schafer, Analogic Corp., USA
N3-2 (14:30) Hybrid CMOS Sensor with Multi-Frame Storage for
Ultra-Fast X-Ray Imaging
J. Porter, M. Sanchez, L. Claus, G. Robertson, R. Kay, J. Stahoviak, J.
MacArthur, D. Trotter, Sandia National Laboratories, USA
N3-3 (14:45) Modular Pixelated X-Ray and Neutron Detector System
with the Spectroscopic Capability and Fast Parallel Read Out
D. Vavrik, Institute of Theoretical and Applied Mechanics, Czech Republic;
J. Jakubek, M. Holik, V. Kraus, P. Soukup, D. Turecek, Institute of
Experimental and Applied Physics, Czech Republic
N3-4 (15:00) Bubble Masks for Time-Encoded Imaging of Fast
Neutrons
E. Brubaker, J. Brennan, A. Nowack, M. Sweany, D. Throckmorton
Sandia National Laboratories, CA, USA
N3-5 (15:15) On the Resolving and Source Identification
Limitations of a Real-Time Fast-Neutron Imaging System
J. Beaumont1, M. Mellor2, M. J. Joyce1
1
Lancaster University, UK, UK; 2Createc Ltd, UK
N3-6 (15:30) An Air Fluorescence Imaging System for the NearField Detection of Alpha Contamination
E. L. Inrig, F. Evans, A. Jones, I. Watson, Defence R&D Canada - Ottawa,
Canada; V. Koslowsky, Bubble Technology Industries, Canada
N3-7 (15:45) Development and First Results of the Yale PIXeY TwoPhase Xenon Detector
N. Destefano, M. Gai, University of Connecticut, USA; D. McKinsey, E.
Bernard, B. Edwards, N. Larsen, M. Horn, B. Tennyson, A. Hackenburg,
Yale University, USA
N4 Scintillator Properties
Monday, Oct. 28 14:00-16:00 GBR 105
Session Chairs: William W. Moses, Lawrence Berkeley National
Laboratory, United States
Marek Moszynski, National Centre for Nuclear
Reserarch, Poland
N4-1 (14:00) New Scintillator Materials for Nuclear Physics
Applications: an In-Beam Test at ALTO
G. Hull1, J. Bettane1, N. J. Cherepy2, B. Genolini1, M. Josselin1, I. Matea1
1
Institut de Physique Nucleaire d’Orsay, France; 2Lawrence Livermore
National Laboratory, USA
N4-2 (14:15) Temperature Dependence on Scintillation Properties
of Gd2Si2O7:Ce Scintillators Grown by a TSSG Method for GammaRays
Y. Tsubota, J. H. Kaneko, M. Higuchi, S. Nishiyama, Hokkaido University,
Japan; H. Ishibashi, Hitachi chemical co. ltd, Japan
Monday
N4-3 (14:30) Scintillation Properties of CeBr3 with Divalent Doping
U. Shirwadkar, R. Hawrami, E. Van Loef, J. Tower, M. Squillante, K. Shah,
Radiation Monitoring Devices, USA; P. Guss, T. Stampahar, Remote Sensing
LaboratoryNellis, USA; M. Foster, B. Wong, F. P. Doty, Sandia National
Laboratories, USA; D. Yuan, National Security Technologies, USA
N4-4 (14:45) Luminescence Properties of Scintillation Crystals
Based on Mixed Rare-Earth Fluorides
J. Pejchal1,2, K. Fukuda3, S. Kurosawa1, Y. Yokota1, A. Yoshikawa1
1
Tohoku University, Japan; 2Institute of Physics AS CR, Czech Republic;
3
Tokuyama corp, Japan
N4-5 (15:00) Scintillation Properties and Temperature Response of
Sr and Ba Co-Doped LaBr3:Ce
K. Yang, P. R. Menge, J. J. Buzniak, Saint-Gobain Crystals, USA; V.
Ouspenski, Saint-Gobain Recherche, France
N4-6 (15:15) Study on Scintillation Properties for Pyrochlore Crystal
S. Kurosawa1, Y. Shoji1, T. Shishido1, A. Suzuki1, Y. Yokota1, K. Kamada1, A.
Yoshikawa1,2
1
Tohoku University, Japan; 2C&A, Japan
N4-7 (15:30) Growth and Scintillation Properties of Ce3+-Activated
Elpasolites and Related Compounds
E. C. Samulon, G. Gundiah, M. Gascon, K. Brennan, G. A. Bizarri, S. E.
Derenzo, E. D. Bourret
N4-8 (15:45) Cz Grown 2-Inch Size Ce:Gd3(Al,Ga)5O12 Single
Crystal; Relationship Between Al,Ga Site Occupancy and
Scintillation Properties
K. Kamada1,2, P. Prusa3, M. Nikl3, V. V. Kochurikhin2, T. Endo4, K. Tsutsumi4,
H. Sato4, S. Kurosawa1, Y. Yokota1, A. Yoshikawa1
1
Tohoku University, japan; 2C&A Corporation, Japan; 3Institute of Physics,
AS CR,, Czech Republic; 4Furukawa Co., Ltd., Japan
N5 High Energy Physics Instrumenation I
Monday, Oct. 28 16:30-18:30 GBR 101
Session Chairs: Jae Yu, Univ. of Texas Arlington, United States
Felix Sefkow, DESY, Germany
N5-1 (16:30) Performance of the Current CMS Pixel Detector
S. Taroni, Universitaet Zuerich, Switzerland
On behalf of the CMS Collaboration
N5-2 (16:45) The Atlas Liquid Argon Calorimeter at the CERN Large
Hadron Collider : General Performance and Latest Developments of
the High Voltage System
V. Grassi, State University of New York, USA
On behalf of the ATLAS LAr collaboration
N5-3 (17:00) First Years of Running for the LHCb Calorimeter
System
S. T’Jampens, LAPP Annecy (CNRS/IN2P3), France
On behalf of the LHCb Collaboration
N5-4 (17:15) ATLAS Upgrades Towards the High Luminosity LHC:
Extending the Discovery Potential
A. Loginov, Yale University / ATLAS (CERN), United States
On behalf of the ATLAS Collaboration
N5-5 (17:30) Production and Performance of RE4 Resistive Plate
Chambers for CMS Experiment Upgrade
S. K. Park, Korea Detector Laboratory, Korea University, Korea
N5-6 (17:45) The Micromegas Project for the ATLAS Upgrade
T. Alexopoulos, CERN, Switzerland
On behalf of the ATLAS Muon Collaboration
N5-7 (18:00) Upgrade of the LHCb Vertex Locator
E. Rodrigues,
N5-8 (18:15) A Scintillating Fibers Tracking Detector for LHCb
Upgrade
E. P. Thomas, CERN, Switrerland
On behalf of the LHCb
N6 HEP Computing
Monday, Oct. 28 16:30-18:30 GBR 102
Session Chairs: Marcia Begalli, State Univ. Rio de Janeiro,
Tsukasa Aso, Nagaoka University of Technology,
Japan
N6-1 (16:30) CERN Accelerator Data Logging and Analysis
C. Roderick, CERN, Switzerland
N6-2 (16:45) Data Preparation for the Compact Muon Solenoid
Experiment
R. Castello, Universite catholique de Louvain, Belgium
N6-3 (17:00) The NA62 Run Control
N. Lurkin, Universite Catholique de Louvain, Belgium
On behalf of the NA62 Collaboration and CERN EN-ICE group
N6-4 (17:15) Performance of the ATLAS Calorimeter High-Level
Trigger in the LHC Run 1 Data Taking Period
D. O. Damazio, Brookhaven National Laboratory, USA
N6-5 (17:30) Report on Distributed Computing and Data Handling
at Belle II Experiment
J. H. Kim, Korea Institute of Science and Technology Information, Korea
On behalf of the Belle II Collaboration
N6-6 (17:45) CMS Computing Upgrade and Evolution
J. Hernandez, CIEMAT, Spain, On behalf of the CMS Collaboration
N6-7 (18:00) Preparing HEP Software for Concurrency - the Gaudi
Data Processing Framework as Showcase
B. Hegner, D. Piparo, P. Mato, CERN, Switzerland
N6-8 (18:15) Scholarly Literature and the Press: Scientific Impact
and Social Perception of HEP Computing
M. G. Pia, INFN Genova, Italy; T. Basaglia, CERN, Switzerland; Z. W. Bell,
ORNL, USA; P. V. Dressendorfer, IEEE, USA
N7 Neutron Detection I : Detectors
Monday, Oct. 28 16:30-18:30 GBR 104
Session Chairs: Richard Kouzes, Pacific Northwest National
John Valentine, Lawrence Berkeley National
N7-1 (16:30) Research of Boron Lined Honey-Comb Neutron
Detector Realized with Atomic Layer Deposition
Y. Yang1,2, C. Li1,2, C. Chen1,2, X. Wang1,2, Y. Li1,2
1
Tsinghua University, China; 2Ministry of Education, China
N7-2 (16:45) High Quality 10B4C Coatings for Detection of Cold Neutrons
G. Nowak1, M. Stormer1, C. Horstmann1, R. Kampmann1, D. Hoeche1,
H.-W. Becker2, M. Haese-Seiller1, J.-F. Moulin1, M. Pomm1, T. Kuehl3, E.
Praetzel3, R. Hall-Wilton4, M. Mueller1, A. Schreyer1
1
Helmholtz Zentrum Geesthacht, Germany; 2Ruhr-Universitaet Bochum,
Germany; 3Denex GmbH, Germnay; 4European Spallation Source ESS AB,
Sweden
N7-3 (17:00) Microstructure Boron Detector for High Efficiency
Thermal Neutron Detection
T. Fujiwara1, H. Takahashi1, N. L. Yamada2, M. Uesaka1
1
The University of Tokyo, Japan; 2High Energy Accelerator Research
Organization, Japan
Monday
N7-4 (17:15) Neutron Detector Based on Particles of Li-6 Glass
Scintillator Dispersed in Organic Lightguide Matrix
K. D. Ianakiev, M. T. Swinhoe, A. D. Favalli, K. Chung, A. B. Laptev, M. L.
Iliev, Los Alamos National Laboratory, USA
N7-5 (17:30) Lithium Alkali Halides: New Thermal Neutron
Detectors with n-γ Discrimination
V. V. Nagarkar, E. Ovechkina, H. Bhandari, S. R. Miller, Z. Marton, J.
Glodo, L. Soundara-Pandian, RMD, Inc., USA; W. Mengesha, M. Gerling, E.
Brubaker, Sandia National Laboratories, USA
N7-6 (17:45) Diamond Neutron Detectors as He-3 Alternative
A. Galbiati, Solaris Photonics, U.K.
N7-7 (18:00) High Frequency Acoustic Pulse Analysis in
Superheated Emulsion Detectors
A. Di Fulvio1, F. d’Errico1,2
1
Yale University, US; 2Universit di Pisa, Italy
N7-8 (18:15) Design of Novel Coatings for Neutron Detection
C. Hoglund1,2, B. Alling1, J. Birch1, L. Hultman1, M. Imam1,2, J. Jensen1, H.
Pedersen1, K. Zeitelhack3, R. Hall-Wilton2
1
Linkoping University, Sweden; 2European Spallation Source ESS AB,
Sweden; 3FRM-II/TU Muenich, Germany
N8 Photodetectors I
Monday, Oct. 28 16:30-18:30 GBR 105
Session Chairs: Ikuo Kanno, Department of Nuclear Engineering,
Junji Haba, KEK, Tsukuba, Japan, Japan
N8-1 (16:30) Performance of FBK High-Density SiPMs in
Scintillation Spectrometry
M. Grodzicka1, M. Moszyński1, T. Szczęśniak1, A. Ferri2, C. Piemonte2, M.
Szawłowski1, A. Gola2, A. Tarolli2
1
National Centre for Nuclear Research (NCBJ), Poland; 2Fondazione Bruno
Kessler (FBK-IRST), Italy
N8-2 (16:45) The Reliability and Reproducibility of MPPC
K. Sato, R. Yamada, Y. Takahashi, T. Nagano, K. Yamamoto
HAMAMATSU PHOTONICS K.K., Japan
N8-3 (17:00) Simulation and Measurements of Geiger Discharge
Transverse Size in a SiPM Cell
E. Popova, P. Buzhan, A. Ilyin, A. Pleshko, A. Stifutkin, MEPhI, Ru; R.
Mirzoyan, M. Teshima, MPI for Physics, Germany
N8-4 (17:15) Comparison Between a Multi-Channel Digital Silicon
Photomultiplier and a Multi-Pixel-Photon-Counter
C. Xu1,2, E. Garutti2, S. Mandai3, E. Charbon3
1
Deutsches Elektronen-Synchrotron (DESY), Germany; 2University of
Hamburg, Germany; 3Delft University of Technology, Netherlands
N8-5 (17:30) SiPM Angular Response and Enhanced Light Extraction
M. V. Nemallapudi1, S. Gundacker1, P. Lecoq1, Z. Liu2, E. Auffray1
1
CERN, Switzerland; 2UNIVERSITY OF MILANO BICOCCA, ITALY
N8-6 (17:45) Complete Characterization of SPADnet-I, a Digital
8x16 SiPM Array for PET Applications
L. Huf Campos Braga1, L. Gasparini1, L. Grant2, R. K. Henderson3, N.
Massari1, M. Perenzoni1, D. Stoppa1, R. Walker3
1
Fondazione Bruno Kessler (FBK), Italy; 2STMicroelectronics, United
Kingdom; 3University of Edinburgh (UEDIN), United Kingdom
N8-7 (18:00) A Passive Quenching Active Recharge Analog SiPM
A. Gola, F. Acerbi, C. Piemonte, FBK, Italy
N8-8 (18:15) Interpolating Silicon Photo-Multiplier: a Novel
Position-Sensitive Device for Photon Cluster Identification with
Sub-Millimeter Spatial Resolution
I. Sacco, P. Fischer, Heidelberg University, Germany; A. Gola, C. Piemonte,
Fondazione Bruno Kessler, Italy
Monday - RTSD Oral
Presentations
R01 Spectrometer Systems for Homeland
Security
Monday, Oct. 28 08:00-10:00 Hall E1&E2
Session Chair: Jang Ho Ha, Korea Atomic Energy Research Institute,
South Korea
R01-1 (08:00) Welcome and Introductory Comments
R. B. James, Brookhaven National Laboratory, USA; J. H. Ha, KAERI, South
Korea
R01-2 (08:05, invited) Radiation Detection R&D Within DNDO/DHS
A. Janos, DNDO, USA
R01-3 (08:30) Evaluation of Various Coplanar Grid CdTe and
(Cd,Zn)Te Detector Concepts for the Application in Gamma
Radiation Surveillance and Environmental Monitoring Detection
Systems
M. Dambacher1, A. Fauler1,2, C. Disch2, A. Zwerger1,2, U. Stoehlker3, M.
Fiederle1,2
1
X-ray Imaging Europe GmbH, Germany; 2Freiburger
Materialforschungszentrum, Germany; 3Bundesamt fuer Strahlenschutz,
Germany
R01-4 (08:45) Threat Liquid Identification in Hand-Held Baggage
B. J. Cantwell, X. Wang, I. Radley, K. Powell, Kromek Ltd., U.K.
R01-5 (09:00) Evaluation of Ambient Dose Equivalent Using 3D
Position Sensing Gamma-Ray Imaging Spectrometer
J. C. Kim1, W. R. Kaye2, J. B. Son1, G. D. Kim1, Y. K. Kim1
1
Institute for Basic Science, Korea; 2H3D Inc, USA
R01-6 (09:15) Development of 2D CdZnTe Linear Array and
Integrated Related Electronics for Explosive Threat Material
Detection
M. Ayoub, A. Cherlin, J. R. Brown, J. T. Mullins, I. Radley, Kromek Ltd., U.K.;
M. Clajus, Nova R&D Inc., U.S.A.; M. Kachelriess, DKFZ, Germany; M. Iovea,
Accent Pro2000, Romania
R01-7 (09:30) A Battery-Operated Gamma Spectrometer for Digital
Dosimetry and Other Applications
M. Clajus, S. Snyder, R. Stinnett, L. He, F. Walker, NOVA R&D, Inc., USA
R01-8 (09:45) Monte Carlo and TCAD Simulation Tools in the
Development of Spectroscopy and Pixel Detectors Systems based
on CdTe/CZT
J. P. Balbuena1,2, U. Parzefall2, M. Fiederle1,3, M. Dambacher3, C. Disch1, A.
Zwerger3
1
Freiburger Materialsforschungszentrum (FMF), Albert-Ludwigs
Universitaet, Germany; 2Physikalisches Institut, Albert-Ludwigs
Universitaet, Germany; 3X-ray Imaging Europe (XIE), Germany
R02 CdZnTe I
Session Chairs: Zhong He, The University of Michigan, United States
Douglas S. McGregor, Kansas State University, United
States
R02-1 (10:30, invited) Results from Testing of High-Granularity
Position-Sensitive CdZnTe Detectors
A. E. Bolotnikov, G. S. Camarda, Y. Cui, G. De Geronimo, J. Fried, A.
Hossain, K. Lee, M. Marshall, U. Roy, G. Yang, E. Vernon, R. B. James
Brookhaven National Laboratory, USA
Monday - RTSD Oral Presentations 93
Monday
R02-2 (10:50) Characterization of THM CdZnTe Radiation Detectors
at eV Products
M. Prokesch, eV Products, Inc., USA
R02-3 (11:05) An Autonomous CZT Module for X-Ray Diffraction
Imaging
G. Montemont1, D. Kosciesza2, O. Monnet1, S. Stanchina1, J.-P. Schlomka2,
L. Verger1
1
CEA-Leti, MINATEC Campus, France; 2Morpho Detection Germany GmbH,
Germany
R02-4 (11:20) Measurement of Charge Division in Pixelated CZT
I. Blevis1, D. Rubin1, F. Verbakel2, A. Livne1, O. Zarchin1
1
Philips Medical Systems, Israel; 2Philiips Research, Netherlands
R02-5 (11:35) Sub-Pixel Position Sensing in 3-D Position Sensitive
CdZnTe Detectors Using the Bi-Polar Peak Detection Function of
the BNL H3Dv4 Analog ASIC
F. Zhang, Z. He, The University of Michigan, USA; G. De Geronimo, E.
Vernon, J. Fried, Brookhaven National Laboratory, USA
R02-6 (11:50, invited) THM Growth of CdZnTe: Crystals and
Detectors
S. Motakef, P. Becla, S. Swider, K. Becla, M. R. Overholt, J. Fiala, W. Higgins
CapeSym, Inc., UA
R03 CdTe
Session Chairs: Eduard Belas, Institute of Physics, Charles University,
Czech Republic
Henry Chen, Redlen Technologies, Canada
R03-1 (14:00) Electrical Properties of CdTe Detectors under
Radiation Induced Polarization
A. Cola, I. Farella, CNR, ITALY
R03-2 (14:15) Fabrication High Resolution X/γ-Ray Detectors Using
Laser-Induced Doping of CdTe in Liquid
V. A. Gnatyuk1,2, O. I. Vlasenko1, T. Aoki2,3, A. Koike3
1
V.E. Lashkaryov Institute of Semiconductor Physics of the National
Academy of Sciences of Ukraine, Ukraine; 2Research Institute of Electronics,
Shizuoka University, Japan; 3ANSeeN Inc., Japan
R03-3 (14:30) Thermal Studies of Space Charge Formation in CdTe
Radiation Detectors
R. Grill1, J. Franc1, H. Elhadidy2, V. Dedic1, J. Zazvorka1, E. Belas1, S. Uxa1, P.
Moravec1, P. Hoschl1
1
Charles University, Faculty of Mathematics and Physics, Czech Republic;
2
Brno University of Technology, Faculty of Electrical Engineering and
Communication, Czech Republic
R03-4 (14:45) Experimental Characterization of CdTe Sensors with
PILATUS3
S. Traut, T. Donath, T. Loeliger, V. Radicci, T. Sakhelashvili, M. Schneebeli,
C. Broennimann
DECTRIS Ltd., Switzerland
R03-5 (15:00) FXCT Using Position Sensitive CdTe Detector
C. Yoon, W. Lee, Korea Univ., Korea
R03-6 (15:15) Zn Effects on the Reconstructions of the CdTerminated CdTe (111) Surface
J. Li, N. Kioussis, California State University Northridge, USA; S. Tari, C.
Grein, F. Aqariden, Sivananthan Laboratories, USA
R03-7 (15:30) Fisher Information Analysis of Depth-of-Interaction
Estimation in Double-Sided Strip Detectors
E. Salcin1, H. H. Barrett1, H. B. Barber1, S. Takeda2, S. Watanabe2,3, T.
Takahashi2,3, L. R. Furenlid1
1
University of Arizona, USA; 2Japan Aerospace Exploration Agency, Japan;
3
University of Tokyo, Japan
94 Monday - RTSD Oral Presentations Monday
R03-8 (15:45) Position Sensitive Current Pulse Characterisation of
Wide Bandgap Semiconductor Material
D. A. Prokopovich1, D. Boardman1, M. Ruat2, M. I. Reinhard1
1
2
European Synchrotron Radiation Facility, France
R04 TlBr and BiI3
Session Chairs: Bob McLaren, Consultant,
Keitaro Hitomi, Tohoku University, Japan
R04-1 (16:30, invited) Recent Progress in Thallium Bromide for
Gamma-Ray Spectroscopy
K. Shah, H. Kim, A. Churilov, Y. Ogorodnik, A. Kargar, G. Ciampi, L.
Cirignano, A. Gueorguiev, S. Kim, Radiation Monitoring Devices Inc., USA;
Z. He, C. Thrall, W. Koehler, University of Michigan, USA
R04-2 (16:50, invited) Development of Pixelated TlBr Detectors
K. Hitomi1, T. Onodera2, S.-Y. Kim1, Y. Xu1, T. Shoji2, K. Ishii1
1
Tohoku University, japan; 2Tohoku Institute of Technology, Japan
R04-3 (17:10, invited) Effects of Metal Impurities from Contacts on
TlBr Radiation Detectors
V. Lordi, C. Rocha-Leao, A. Conway
Lawrence Livermore National Lab, USA
R04-4 (17:30) Time-of-Flight Measurements on TlBr Crystals
K. Suzuki1, M. Shorohov2, S. Seto3, T. Sawada1
1
Hokkaido Institute of Technology, Japan; 2Baltic Scientific Instruments Ltd.,
Latvia; 3Ishikawa national college of Technology, Japan
R04-5 (17:45) Novel Approaches for Characterization of TlBr
W. M. Higgins1, K. Becla1, P. Becla1, J. Fiala1, S. Swider1, M. Overholt1, D.
Bliss2, S. Motakef1
1
CapeSym, Inc., USA; 2Consultant, USA
R04-6 (18:00) Detection Performance of BiI3 Semiconductor
Radiation Detectors and Estimation of Carrier Transport Properties
S. Gokahle, H. Han, J. E. Baciak, J. C. Nino, K. A. Jordan
University of Florida, United States
R04-7 (18:15) Zone Refining and Crystal Growth of Bismuth TriIodide Crystals
S. Khan, H. J. Kim, H. Park
Kyungpook National University, Republic of Korea
Monday - RTSD Oral Presentations 95
Monday
Monday - Workshop Oral
Presentations
MWK1 - Quantitative Four-Dimensional
Image Reconstruction Methods
4D1 Quantitative Four-Dimensional Image
Reconstruction Methods I
Monday, Oct. 28 08:30-10:35 ASEM 201
Session Chairs: Benjamin M. W. Tsui, Johns Hopkins University,
United States
Grant T. Gullberg, Lawrence Berkeley National
4D1-1 (08:30) Fully 4-D image reconstruction for cardiac x-ray CT
K. Taguchi, Johns Hopkins University, USA
4D1-2 (08:50) Overview of 4D applications and reconstruction
methods in current Computed Tomography
K. Stierstorfer, Siemens AG, Germany
4D1-3 (09:08) Beyond Imaging of Anatomical Structures in x-ray
Computed Tomography
J. Hsieh, GE Healthcare, USA
4D1-4 (09:25) Modeling and Incorporating Deformable Respiratory
Motion in 4D PET List Mode based Image Reconstruction
D. Visvikis, National Institute of Health and Medical Sciences, France
4D1-5 (09:43) 4D reconstruction for correction of respiratory and
bulk motion in PET-MR
C. Tsoumpas, Imperial College London, England
4D1-6 (10:00) Impact of respiratory motion in cardiac ECT imaging
and its correction
C. Liu, Yale University, USA
4D1-7 (10:18) 4-D image reconstruction with simultaneous
respiratory and cardiac motion compensation in ECT using
estimated motion models
B. M. W. Tsui, Johns Hopkins University, USA
4D2 Quantitative Four-Dimensional Image
Reconstruction Methods II
Monday, Oct. 28 10:50-12:30
ASEM 201
Session Chairs: Benjamin M. W. Tsui, Johns Hopkins University,
United States
Steven R. Meikle, University of Sydney, Australia
4D2-1 (10:50) Fully 4-D PET image reconstruction for improved
kinetic parameter estimates
A. Reader, McGill University, Canada
4D2-2 (11:08) 6-D image reconstruction for myocardial perfusion
imaging of tracer kinetics, cardiac motion, and respiratory motion
G. T. Gullberg, Lawrence Berkeley Laboratory, USA
4D2-3 (11:25) The Essential role of GPU in multi-dimensional PET
Reconstruction
X. Song, Philips Healthcare, USA
4D2-4 (11:42) The strategy of elastic motion corrections
I. Hong, Siemens Medical Solutions, USA
4D2-5 (11:59) Title to be determined
C. Stearns, General Electric Healthcare, USA
96 Monday - Workshop Oral Presentations Monday
MWK3 - Fundamentals and Applications of
Photon-Counting X-ray Detectors
PC1 Fundamentals and Applications of PhotonCounting X-ray Detectors I
Monday, Oct. 28 13:30-15:15 ASEM208A&B
Session Chairs: Katsuyuki Taguchi, Johns Hopkins University, United
States
Patrick J. La Riviere, The University of Chicago,
United States
PC1-1 (13:35) Optimizing sensors and ASICs for photon counting
in Radiology
W. C. Barber, DxRay Inc., USA
PC1-2 (13:55) X-ray Imaging Using the Medipix3RX Chip:
Combining High Spatial Resolution with Spectroscopy
M. Campbell, CERN, Switzerland
PC1-3 (14:15) A Silicon-Strip Detector for Photon-Counting
Spectral CT
B. Huber, Royal Institute of Technology, Sweden
PC1-4 (14:35) Spectral CT Imaging Methods: How to Handle
Spectral Distortion
K. Taguchi
The Johns Hopkins University School of Medicine, USA
PC1-5 (14:55) Energy Domain Noise Reduction: Techniques and
Applications in Spectral CT
S. Leng, Mayo Clinic, USA
PC2 Fundamentals and Applications of PhotonCounting X-ray Detectors II
Monday, Oct. 28 15:40-17:30 ASEM208A&B
States
Patrick J. La Riviere, The University of Chicago,
United States
PC2-1 (15:40) Hybrid PCD-CT System: Recent Results of a Research
Prototype System
S. G. Kappler, Siemens Healthcare, Germany
PC2-2 (16:00) Title to be determined (PCD-CT)
R. Proksa, Philips Research Europe, NA
PC2-3 (16:20) Potential clinical benefits and applications of
Photon-Counting Detectors
P. J. La Riviere, The University of Chicago, USA
HY1 PET-MR and SPECT-MR I
Monday, Oct. 28 13:30-15:10 ASEM 201
Session Chairs: Georges El Fakhri, Harvard Medical School and
Massachusetts General Hospital, United States
Benjamin M. W. Tsui, Johns Hopkins University,
United States
HY1-1 (13:30) Small Animal PET-MR Imaging System Based on
SiPM PET and UHF MRI
J. S. Lee, Seoul National University, Korea
Monday - Workshop Oral Presentations 97
Monday
HY1-2 (13:50) Development of Integrated PET/MRI Systems and
Our Future Plans
S. Yamamoto, Nagoya University, Japan
HY1-3 (14:10) Integrated PET/MR Instrumentation
M. Casey, Siemens Healthcare, USA
HY1-4 (14:30) Title to be determined (clinical PET-MR in GE)
C. Stearns, GE Healthcare, USA
HY1-5 (14:50) Factors impacting PET/MR quantitation
Z. Hu, Philips Healthcare, USA
HY2 PET-MR and SPECT-MR II
Monday, Oct. 28 15:40-17:30 ASEM 201
Session Chairs: Georges El Fakhri, Harvard Medical School and
United States
HY2-1 (15:40) The development and application of a small animal
simultaneous SPECT-MR imaging system
B. M. W. Tsui, Johns Hopkins University, USA
HY2-2 (16:00) MRC-SPECT: An Ultrahigh MR-Compatible SPECT
System Based on Small-Pixel CdTe Detectors
L. J. Meng, University of Illinois, USA
HY2-3 (16:20) PET-MR Reconstruction and Quantifications
Methods
G. El Fakhri
Massachusetts General Hospital, Harvard Medical School, USA
HY2-4 (16:40) Clinical Applications of simultaneous PET-MR
R. Lim
98 Monday - Workshop Oral Presentations Monday
Notes
99
Notes
Monday
100 Monday
Notes
101
Notes
Monday
102 Monday
Notes
103
07:00
07:30
08:00
Tuesday, 29 October
GBR102-104
08:30
09:00
09:30
10:00
N10: Gaseous Detectors II: Time
Does It for You
Instrumentation II
10:30
11:00
11:30
12:00
J1: NSS-MIC Joint Session I
12:30
13:00
13:30
14:00
14:30
15:00
15:30
J2: NSS-MIC Joint Session II
16:00
16:30
17:00
17:30
18:00
18:30
J3: NSS-MIC-RTSD Joint Session
N16: Nuclear Instrumentation:
Large Systems
GBR101
N11: Compton Imaging
Instrumenation II
GBR102
N17: Front End Digitizers and
Read Out Components
GBR104
N14: Pixel Circuits
N18: Computing Challenges
N12: Crystal Production
Methods
N15: Instrumentation for
Homeland Security I: Passive
Detection
GBR105
ASEM 203 A&B
R07: Si
Detectors
Hall E1&E2
NPO1: NSS Poster I
R06: CdZnTe and CdTe: Medical
Applications 1
R05: RTSD Poster I
Industrial Exhibition
Hall B2
Hall B2
19:00
19:30
Exhibitor
Reception
Tuesday
RTSD Luncheon
Hall E5
Fradia Restaurant
104 104
Tuesday
Tuesday - NSS Oral
Presentations
N9 Astrophysics and Space Instrumentation II
Tuesday, Oct. 29 08:00-10:00 GBR 101
Session Chairs: Chanhoon Chung, RWTH Aachen University, Germany
Pier S. Marrocchesi, University of Siena and INFNPisa, Italy
N9-1 (08:00, invited) The IceCube Neutrino Telescope
C. Rott, Sungkyunkwan University, Korea
On behalf of the IceCube Collaboration
N9-2 (08:30) FACT - the G-APD Revolution in Cherenkov Astronomy
T. Bretz, ETH Zurich, Switzerland
On behalf of the FACT Collaboration
N9-3 (08:45) POLAR: a Highly Sensitive Gamma-Ray Burst
Polarimeter
Y. Dong1, T. Bao1, T. Batsch2, I. Britvitch3, F. Cadoux4, J. Chai1, N. Gauvin4,
W. Hajdas3, M. Kong1, C. Leluc4, L. Li1, J. Liu1, X. Liu1, R. Marcinkowski3, S.
Orsi4, M. Pohl4, N. Produit4, D. Rapin4, A. Rutczynska2, D. Rybka3, H. Shi1, J.
Sun1, J. Szabelski2, R. Wang1, X. Wen1, B. Wu1, H. Xiao1, H. Xu1, L. Zhang1, L.
Zhang1, S. Zhang1, Y. Zhang1, A. Zwolinska2
1
Institute of High Energy Physics, Chinese Academy of Sciences, China;
2
National Centre for Nuclear Research, Poland; 3Paul Scherrer Institut,
Switzerland; 4University of Geneva, Switzerland
N9-4 (09:00) A Balloon-Borne Measurement of High Latitude
Atmospheric Neutrons Using a LiCAF Neutron Detector
M. Kole1,2, Y. Fukazawa3, K. Fukuda4, S. Ishizu4, M. Jackson1,2, T. Kamae5,
N. Kawaguchi4, T. Kawano3, M. Kiss1,2, E. Moretti1,2, M. Pearce1,2, S.
Rydstrom1,2, H. Takahashi3, T. Yanagida6
1
Royal Institute of Technology (KTH), Sweden; 2The Oskar Klein Centre for
Cosmoparticle Physics, Sweden; 3Hiroshima University, Japan; 4Tokuyama
Corporation, Japan; 5University of Tokyo, Japan; 6Kyushu Institute of
Technology, Japan
N9-5 (09:15) The PoGOLite Pathfinder Mission for Balloon-Borne
Hard X-Ray Polarimetry
M. Pearce1,2, 1KTH Royal Institute of Technology, Sweden; 2AlbaNova
University Center, Sweden
On behalf of the PoGOLite Collaboration
N9-6 (09:30) First Results from the Hard X-Ray Polarimeter
X-Calibur
F. Kislat, M. Beilicke, R. Cowsik, P. Dowkonnt, Q. Guo, H. Krawczynski,
Washington University in St. Louis, USA; S. Barthelmy, T. Okajima, J.
Mitchell, J. Schnittman, B. Zeiger, Goddard Space Flight Center, USA; G.
De Geronimo, Brookhaven National Laboratory, USA; M. G. Baring, Rice
University, USA; A. Bodaghee, University of California, Berkeley, USA; T.
Miyazawa, Nagoya University, Japan
N9-7 (09:45) Development of a 3D-Imaging Calorimeter in
Lanthanum Bromide for Gamma-Ray Space Astronomy
A. Gostojic, V. Tatischeff, J. Kiener, C. Hamadache, G. Sedes, N. Karkour, D.
Linget, CSNSM, France; S. Blin, P. Barrillon, LAL, France
N10 Gaseous Detectors II: Time Does It for You
Tuesday
Tuesday, Oct. 29 08:00-10:00 GBR 102
Session Chairs: Serge Duarte-Pinto, CERN, Switzerland
Paul Colas, CEA/IRFU, France
N10-1 (08:00) A Time Projection Chamber Prototype for High-Rate
Experiments
M. Berger, Technical University of Munich, Germany
On behalf of the GEM-TPC Collaboration
N10-2 (08:15) Precise Low-Energy Electron Tracking Using a
Gaseous Time Projection Chamber for the Balloon-Borne Gamma
Ray Compton Telescope
T. Mizumoto1, T. Tanimori1, H. Kubo1, A. Takada1, J. D. Parker1, S. Sonoda1,
Y. Mizumura1, D. Tomono1, T. Sawano1, K. Nakamura1, Y. Matsuoka1, S.
Komura1, Y. Sato1, S. Nakamura1, K. Miuchi2, S. Kabuki3, Y. Kishimoto4, S.
Kurosawa5, S. Iwaki1, M. Tanaka4, M. Ikeno4, T. Uchida4
1
Kyoto University, Japan; 2Kobe University, Japan; 3Tokai University, Japan;
4
KEK, Japan; 5Tohoku University, Japan
N10-3 (08:30) Study of Ion Back Flow Suppression with Thick
COBRA GEM
K. Terasaki, H. Hamagaki, T. Gunji, Y. L. Yamaguchi
Center for Nuclear Study, Graduate School of Science, University of Tokyo,
Japan
N10-4 (08:45) Further Study of Glass GEM
Y. Mitsuya, T. Fujiwara, H. Takahashi
The University of Tokyo, Japan
N10-5 (09:00) Timing and Intermediate Strip Studies of a High
Spatial Resolution Resistive Plate Chamber
D. G. Cussans, P. Baesso, C. Thomay, J. J. Velthuis
University of Bristol, U.K.
N10-6 (09:15) The Gas Systems for the Detectors at the LHC
Experiments: Overview of the Performances During the past Years
and Upgrade Strategy in View of the LHC Luminosity Increase.
R. Guida, M. Capeans, F. Hahn, S. Haider, B. Mandelli
CERN, Switzerland
N10-7 (09:30) Aging Study for Large Triple-GEM Detectors for the
High Rate Environment in CMS
J. A. Merlin, IPHC, CERN, France
N10-8 (09:45) The Performance and Radiation Hardness of the
Outer Tracker Detector for LHCb
N. Tuning, NIKHEF, Netherlands
On behalf of the LHCb Outer Tracker collaboration
N11 Compton Imaging
Tuesday, Oct. 29 08:00-10:00 GBR 104
Session Chairs: Jinhun Joung, Nutec Solutions, United States
Robert S. Miyaoka, University of Washington, United
States
N11-1 (08:00, invited) A New Pad-Based Neutron Detector for
Stereo Coded-Aperture Thermal Neutron Imaging
I. Dioszegi, B. Yu, G. Smith, N. Schaknowski, J. Fried, P. E. Vanier, C.
Salwen, Brookhaven National Laboratory, USA; L. Forman, Ion Focus
Technology Inc., USA
N11-2 (08:30) Current Status and Optimization of Handy Compton
Camera Using 3D Position-Sensitive Scintillators
T. Nishiyama, J. Kataoka, A. Kishimoto, T. Fujita, K. Takeuchi, Waseda
University, Japan; S. Ohsuka, S. Nakamura, H. Suzuki, S. Adachi, M.
Hirayanagi, T. Uchiyama, Y. Ishikawa, T. Kato, Hamamatsu Photonics K.K.,
Japan; T. Nakamori, The University of Yamagata, Japan
106 Tuesday - NSS Oral Presentations Tuesday
N11-3 (08:45) A New Filtered Back-projection Algorithm for Realtime Reconstruction of Compton Telescope Data
A. Haefner1, D. Gunter2, R. Barnowski1, K. Vetter2
1
UC Berkeley, USA; 2BNL, USA
N11-4 (09:00) A New Compact Gamma Camera with Super
Resolution Capability and High Sensitivity for Monitoring Sparse
Radioactive Sources in Large Area
S. Chen1, T. Ma1, F. He2, Y. Liu1,2, S. Wang1,2
1
Tsinghua University, China; 2Beijing NucMed Technology Ltd, China
N11-5 (09:15) Preliminary Study for Developing Digital Silicon
Photomultiplier (dSiPM) Based COMPTON Camera
J. H. Park1, H. Seo2, J. H. Park1, H. S. Kim1, C. H. Kim1
1
Hanyang University, Korea; 2Korea Atomic Energy Research Institute, Korea
N11-6 (09:30) Imaging Sensor Bayesian Aggregation for Improved
Detection and Localization of Radiological Threats
P. M. Huggins, A. Dubrawski, P. Tandon, Carnegie Mellon University, USA;
S. Labov, K. Nelson, Lawrence Livermore National Laboratory, USA
N11-7 (09:45) Self-Organizing Map Neural Network Based
Positioning Scheme for Continuous Crystal PET Detectors
W. Yonggang, L. Deng, L. Xiaoming, C. Xinyi, W. Liwei
University of Science and Technolgy of China, China
N12 Crystal Production Methods
Tuesday, Oct. 29 08:00-10:00 GBR 105
Session Chairs: Alex Gektin, Institute for Scintillation Materials,
Ukraine
Edith Bourret, Lawrence Berkeley National
N12-1 (08:00) Fabrication of Finely Pitched LYSO Arrays Using
Sub-Surface Laser Engraving Technique with Picosecond and
Nanosecond Pulse Lasers
T. Moriya, K. Fukumitsu, T. Yamashita, M. Watanabe
Hamamatsu Photonics K.K., Japan
N12-2 (08:15) Novel High Efficiency Microcolumnar LuI3:Ce for
Hard X-Ray Imaging
V. V. Nagarkar1, Z. Marton1, S. R. Miller1, C. Brecher1, H. B. Bhandari1, P.
Kenesei2, S. K. Ross2, J. D. Almer2, B. Singh1
1
RMD, Inc., USA; 2Advanced Photon Source, Argonne National Laboratory,
USA
N12-3 (08:30) Characterization of New GAGG:Ce Scintillators with
Different Al and Ga Ratio.
P. Sibczynski, J. Iwanowska, L. Swiderski, M. Moszynski, M. Szawlowski,
National Centre for Nuclear Research, Poland; K. Kamada, IMRAM, Tohoku
University, Japan; H. Sato, Furukawa Company Ltd, Japan
N12-4 (08:45) Improving the SrI2-Scintillator Detector-Efficiency
Through Crystal Growth
L. Alaribe1, M. Dambacher1, A. Cecilia2, T. Rolo2, A. Burger3, N. Cherepy4,
M. Fiederle1,2, A. Fauler1, S. Payne4
1
FMF-Freiburg Material Research Center, Germany; 2Institute for
Synchrotronradiation and Photons (ISP)/Karlsruhe Institute of Technology
(KIT), Germany; 3FISK University, USA; 4Lawrence Livermore National
Laboratory (LLNL), USA
N12-5 (09:00) Bulk Single Crystals of Eu Doped SrI2 Scintillator
Grown by Modified Micro-Pulling-down Method
Y. Yokota1, S. Kurosawa1, K. Nishimoto1, K. Kamada1,2, A. Yoshikawa1,2
1
Tohoku University, Japan; 2C&A Corporation, Japan
N12-6 (09:15) Advancements in Strontium Iodide Scintillator
Technology
K. Shah, R. Hawrami, U. Shirwadkar, J. Tower, J. Glodo, Radiation
Monitoring Devices, Inc., USA; N. Cherepy, S. Payne, Lawrence Livermore
National Laboratory, USA; A. Burger, Fisk University, USA; L. Boatner, Oak
Ridge National Laboratory, USA
Tuesday
N12-7 (09:30) Characterization of New Inorganic Scintillating
Fibers Made of LuAG:Ce and LYSO:Ce
R. W. Novotny, 2nd Physics Institute, University Giessen, Germany
On behalf of the HP3-WP22 and Crystal Clear Collaborations
N12-8 (09:45) On the Growth and Scintillation Properties of
Li6LuxGd1-x(BO3)3: Ce3+ (where X = 0.0, 0.2, 0.5, 0.8, 1.0)
U. Fawad1, H. J. Kim1, G. Rooh2, H. Park1, S. Kim3, H. Jiang4
1
Kyungpook National University, South Korea; 2Abdul Wali Khan University,
Pakistan; 3Cheongju University, South Korea; 4Tsinghua University, China
N13 High Energy Physics Instrumenation II
Tuesday, Oct. 29 10:30-12:30 GBR 101
Session Chairs: Marcel Demarteau, Argonne National Laboratory,
Jae Yu, Univ. of Texas Arlington, United States
N13-1 (10:30) Overview of the Insertable B-Layer (IBL) Project of
the ATLAS Experiment at the Large Hadron Collider CERN.
C. Troncon, INFN, Italy
N13-2 (10:45) Development of Edgeless Silicon Pixel Sensors on
P-Type Substrate \\ for the ATLAS High-Luminosity Upgrade
M. Bomben1, A. Bagolini2, M. Boscardin2, L. Bosisio3, G. Calderini1,4, J.
Chauveau1, G. Giacomini2, A. La Rosa5, G. Marchiori1, N. Zorzi2
1
LPNHE, France; 2Fondazione Bruno Kessler, Centro per i Materiali e i
Microsistemi, Italy; 3Universita di Trieste, Dipartimento di Fisica and INFN,
Italy; 4Dipartimento di Fisica E. Fermi, Universita di Pisa, and INFN Sez. di
Pisa, Italy; 5Section de Physique (DPNC), Universite de Geneve, Switzerland
N13-3 (11:00) Evaluation of Irradiated Barrel Detector Modules for
the Upgrade of the CMS Pixel Detector
J. Sibille, University of Hamburg, Germany
On behalf of the CMS Tracker Collaboration
N13-4 (11:15) A Silicon Based Cosmic Ray Telescope as an External
Tracker to Measure Detector Performances
L. Galli1,2, D. Nicolo’1, S. Dussoni2
1
Paul Scherrer Institut, Switzerland; 2INFN Pisa, Italy
N13-5 (11:30) High Precision Measurement of Positron Time in
MEG Upgrade
Y. Uchiyama, The University of Tokyo, Japan
On behalf of the MEG Collaboration
N13-6 (11:45) The Precision Energy Measurement with the RD52
Fiber Calorimeter
S. Lee, Texas Tech University, USA
On behalf of the RD52 Collaboration
N13-7 (12:00) Detecting the Cosmogenic Production of BetaNeutron Emitting Radionuclide Elements in Water
S. A. Dazeley, Lawrence Livermore NAtional Laboratory, USA
On behalf of the Watchman Collaboration
N13-8 (12:15) Cherenkov Detector for Proton Flux Measurement
(CpFM)
L. Burmistrov1, D. Breton1, G. Cavoto2, S. Conforti Di Lorenzo1, G. Hall3,
F. Iacoangeli2, J. Maalmi1, S. Montesano4, V. Puill1, W. Scandale1, V.
Shaumat4, A. Stocchi1, S. Tammaro1, J. F. Vagnucci1
1
LAL, France; 2INFN, Italy; 3Imperial College, England; 4CERN, Switzerland
N14 Pixel Circuits
Tuesday, Oct. 29 10:30-12:30 GBR 105
Session Chairs: Christophe de La Taille, IN2P3 / CNRS, France
Manobu Tanaka, KEK IPNS, Japan
N14-1 (10:30) Development of the MISTRAL & ASTRAL Sensors for
the Upgrade of the Inner Tracking System of the ALICE Experiment
at LHC
C. Hu-guo, IPHC-IN2P3-CRNS, France
On behalf of the PICSEL team of IPHC-Strasbourg
N14-2 (10:45) The TDCpix ASIC: High Rate Readout of Hybrid Pixels
with Sub-200 ps Timing Resolution.
G. Aglieri Rinella1, S. Bonacini1, P. Jarron1,2, J. Kaplon1, A. Kluge1, M.
Morel1, M. Noy1, L. Perktold1, K. Poltorak1
1
CERN, European Organization for Nuclear Research, Switzerland; 2INFN,
Istituto Nazionale Fisica Nucleare, Italy
N14-3 (11:00) A Pixel Readout Chip in 40 nm CMOS Process for
High Count Rate Imaging Systems with Minimization of Charge
Sharing Effects
P. Maj, P. Grybos, R. Szczygiel, P. Kmon, AGH University of Science and
Technology, Poland; G. Deptuch, Fermi National Accelerator Laboratory,
USA
N14-4 (11:15) Results of Tests of Three-Dimensionally Integrated
Chips Bonded to Sensors
G. W. Deptuch1, G. Carini2, P. Grybos3, R. Lipton1, P. Maj3, P. Siddons4, R.
Szczygiel3, M. Trimpl1, R. Yarema1
1
Fermilab, USA; 2SLAC, USA; 3AGH-UST, Poland; 4BNL, USA
N14-5 (11:30) First Electrical Measurements of the Timepix3 Chip
X. Llopart1, M. van Beuzekom2, C. Brezina3, M. Campbell1, M. de Gaspari1,
K. Desch3, X. Fang3, Y. Fu3, R. Kluit2, T. Poikela1, F. Zappon2, V. Zivkovic2, V.
Gromov2, A. Kruth3, R. Ballabriga1, J. Buytaert1
1
CERN, Switzerland; 2Nikhef, The Netherlands; 3Bonn University, Germany
N14-6 (11:45) A CdTe-CMOS Hybrid for Energy, Position and Time
Identification
D. Hatzistratis1, G. Theodoratos1, I. Kazas2, E. Zervakis1, S. Vlassis3, C. P.
Lambropoulos1
1
Technological Educational Institute of Chalkida, Greece; 2NCSR
Demokritos, Greece; 3University of Patras, Greece
N14-7 (12:00) AGIPD1.0: the Analog Front-End ASIC for AGIPD
XFEL Detector
X. Shi1, R. Dinapoli1, D. Greiffenberg1, B. Schmitt1, J. Becker2, L. Bianco2,
P. Goettlicher2, H. Graafsma2,3, B. Henrich1, H. Hirsmann2, S. Jack2, A.
Klyuev2, A. Marras2, J. Schwandt4, U. Trunk2, J. Zhang4, H. Krueger5
1
Paul Scherrer Institut, Switzerland; 2Deutsches Elektronensynchrotron,
Germany; 3Mid Sweden University, Sweden; 4University of Hamburg,
Germany; 5University of Bonn, Germany
N14-8 (12:15) Characterization of the Front-End PMC-L32
Dedicated to Large Area Position-Sensitive Silicon Drift Detectors
(SDD) for Space and Medical Applications
F. Fuschino1,2, R. Campana1,2, Y. Evangelista3,1, M. Ahangarianabhari4,
D. Macera4, M. Grassi5, Y. Favre6, L. Andreani1,7, M. Zuffa1, G. Baldazzi1,7,
G. Bertuccio4, M. Feroci3,1, C. Labanti1,2, P. Malcovati5, M. Marisaldi1,2, A.
Rachevski1, A. Vacchi1, G. Zampa1, N. Zampa1
1
INFN, Italia; 2Italian National Institute of Astrophysics, Italia; 3INAF/IAPS,
Italia; 4Politecnico di Milano, Italia; 5University of Pavia, Italia; 6University of
Geneva, Switzerland; 7University of Bologna, Italia
Tuesday
N15 Instrumentation for Homeland Security I:
Passive Detection
Tuesday, Oct. 29 10:30-12:30 ASEM 203 A&B
Session Chairs: Austin Kuhn, DHS/DNDO, United States
Sara Pozzi, University of Michigan, United States
N15-1 (10:30, invited) Radiation Screening at the London 2012
Olympics
J. M. James, C. Ryden, AWE PLC, UK
N15-2 (11:00) The FLASH Portals Program: Radiation Portal
Monitors Exploiting Time Correlation
R. Chandra, Arktis Radiation Detectors Ltd, Switzerland
On behalf of the FLASH Portals Program
N15-3 (11:15) Multiplicity and Recoil Spectrometer for Fast
Neutron Background Measurements at Depth
P. A. Marleau, M. Gerling, D. Reyna, M. Sweany, Sandia National
Laboratories, USA; A. Bernstein, B. Nathaniel, S. Dazeley, C. Roecker,
Lawrence Livermore National Laboratory, USA
N15-4 (11:30) Performance Characteristics of a Third-Generation
Spectroscopic Vehicle Portal Monitor Based on High Purity
Germanium Detectors.
T. R. Twomey, J. Long, F. Sergent
AMETEK Advanced Measurement Technology, USA
N15-5 (11:45) Automated Photopeak Detection and Analysis in
Low Resolution Gamma-Ray Spectra for Isotope Identification
C. J. Sullivan, J. Lu
University of Illinois, United States
N15-6 (12:00) Preliminary Research on Performance Evaluation
and TUCCI Model for Muon Tomography
X. Wang1,2, J. Cheng1,2, M. Zeng1,2, Y. Wang1,2, Q. Yue1,2, Z. Zeng1,2, Z.
Zhao1,2, Z. Deng1,2, Z. Luo1,2, X. Yue1,2, H. Yi1,2, B. Yu1,2, X. Fan1,2
1
Key Laboratory of Particle & Radiation Imaging (Tsinghua University),
Ministry of Education, China; 2Department of Engineering Physics,
Tsinghua University, China
N15-7 (12:15) Distributed Detection Networks in Radiation
Detection
D. Blackie1, S. Gillespie2, C. Steer1, A. Caister1, C. Shenton-Taylor1
1
AWE, UK; 2Surrey University, UK
N16 Nuclear Instrumentation I : Large Systems
Tuesday, Oct. 29 16:30-18:30 GBR 101
Session Chairs: Maxim P. Titov, CEA Saclay, France
Shinichi Sasaki, KEK, Japan
N16-1 (16:30, invited) Water Cherenkov Monitor of AntiNeutrinos:
Overview and Status of the WATCHMAN Project
A. Bernstein, Lawrence Livermore National Laboratory, USA
N16-2 (17:00) PHENIX Forward Silicon Vertex Tracker
R. Pak, Brookhaven National Laboratory, USA
On behalf of the PHENIX Collaboration
N16-3 (17:15) CERBEROS - Beam Detector for Pion Experiments at GSI
R. Lalik, L. Fabbietti, R. Muenzer, J. Siebenson, E. Epple, J. Wirth,
DFG Excellence Cluster, Germany; L. Maier, Technical University of
Munich, Germany; W. Koenig, M. Traxler, P. Koczoń, C. Schmidt, GSI
Helmholtzzentrum fuer Schwerionenforschung GmbH, Germany; T.
Hennino, IPN, France
N16-4 (17:30) Design and Time Properties of the Central Neutron
Detector for CLAS12
G. Hull, J. Bettane, B. Genolini, M. Imre, A. Maroni, J. Pouthas, P. Rosier, D.
Sokhan, T. N. Trung, S. Niccolai
Institut de Physique Nucleaire d’Orsay, France
N16-5 (17:45) Design of the Electromagnetic and Hadronic
Calorimeters for the sPHENIX Experiment at RHIC
C. Woody, Brookhaven National Lab, USA
On behalf of the PHENIX Collaboration
N16-6 (18:00) Experiment FIRST: Fragmentation of Carbon Beam
at 400 MeV/u
R. Introzzi1,2, 1INFN - sezione di Torino, Italy; 2Politecnico di Torino, Italy
On behalf of the FIRST Collaboration
N16-7 (18:15) Energy Calibration of the NewSUBARU Storage Ring
by Laser Compton-Scattering Gamma Rays and Its Applications
H. Utsunomiya, Konan University, Japan; T. Shima, K. Takahisa, Osaka
University, Japan; D. -M-M. Filipescu, O. Tesileanu, I. Gheorghe, National
Institute for Physics and Nuclear Engineering Horia Hulubei, Romania; H.
-Therese-T. Nyhus, T. Renstrom, University of Oslo, Norway; Y. -Wing-W.
Lui, Texas A&M University, USA; Y. Kitagawa, S. Amano, S. Miyamoto,
University of Hyogo, Japan
N17 Front End Digitizers and Read Out
Components
Tuesday, Oct. 29 16:30-18:30 GBR 105
Session Chairs: Jean François Genat, LPNHE Paris, France
Zhen-An Liu, Inst. of High Energy Physics, Chinese
Academy of Sciences, China
N17-1 (16:30) Upgrade Analog Readout and Digitizing System for
ATLAS TileCal Demonstrator
F. Tang, University of Chicago, USA
On behalf of the ATLAS Tile Calorimeter Group
N17-2 (16:45) The CAKE Clocking and the Trapezoidal Clocking
Schemes: Principles and Demo Tests
J. Wu, Fermilab, USA; S. Wang, K. Zhang, Illinois Mathematics and Science
Academy, USA
N17-3 (17:00) Fast Cluster Reconstruction in the NA62 Liquid
Krypton Electromagnetic Calorimeter by Using Soft Core
Embedded Processors in FPGA
V. Bonaiuto1, N. De Simone2, L. Federici1, A. Fucci2, G. Paoluzzi2, A.
Salamon2, G. Salina2, E. Santovetti1, F. Sargeni1, S. Venditti3
1
University of Rome Tor Vergata, Italy; 2INFN Tor Vergata, Italy; 3CERN,
Switzerland
N17-4 (17:15) POLAR Front-End Electronics: Concept, Performance
and Qualification Tests
R. Marcinkowski, Paul Scherrer Institute, Switzerland
On behalf of the POLAR Collaboration
N17-5 (17:30) A Low-Latency, Small Footprint Optical Link for the
ATLAS Trigger Upgrade
T. Liu1, B. Deng1,2, D. Gong1, D. Guo1,3, S. Hou4, X. Li1,5, F. Liang3, C. Liu1, G.
Liu1,6, D.-S. Su4, P.-K. Teng4, A. C. Xiang1, J. Ye1
1
Southern Methodist University, United States; 2Hubei Polytechnic University,
China; 3University of Science and Technology of China, China; 4Institute of
Physics, Academia Sinica, Taiwan; 5Central China Normal University, China;
6
Institute of high energy physics, Chinese academy of sciences, China
N17-6 (17:45) Multi-Gigabit Wireless Data Transfer at 60 GHz
H. K. Soltveit, A. Schoening, D. Wiedner
University of Heidelberg, Germany
N17-7 (18:00) A Full Mesh ATCA-Based General Purpose Data
Processing Board
Y. Okumura1,2, T. Liu2, J. Olsen2
1
University of Chicago, Enrico Fermi Institute, United States; 2Fermi National
Accelerator Labratory, United States
N17-8 (18:15) GET a General Electronic System Tailored for Nuclear
Physics TPCs
E. C. Pollacco, CEA Saclay, France
On behalf of the GET Collaboration
N18 Computing Challenges
Tuesday
Tuesday, Oct. 29 16:30-18:15 ASEM 203 A&B
Session Chairs: Maria Grazia Pia, INFN Genova, Italy
Gabriela Hoff, Pontifical Catholic University in Rio
Grande do Sul, Brazil
N18-1 (16:30) Improvement of Computation Speed in Geant4
Simulation for CAD-Based Geometry
M. C. Han1, C. H. Kim1, J. H. Jeong2, Y. S. Yeom1, S. Kim3, P. P. H. Wilson4, J.
Apostolakis5
1
Hanyang University, Republic of Korea; 2National Cancer Center, Republic
of Korea; 3College of Medicine, Hanyang University, Republic of Korea;
4
University of Wisconsin-Madison, Republic of Korea; 5CERN, Switzerland
N18-2 (16:45) Challenging Data and Workload Management in
CMS Computing with Network-Aware Systems
D. Bonacorsi, University of Bologna, Italy
On behalf of the CMS Computing team
N18-3 (17:00) A High-Performance and Energy-Efficient CT
Reconstruction Algorithm for Multi-Terabyte Datasets
E. S. Jimenez, L. J. Orr, K. R. Thompson
Sandia National Laboratories, USA
N18-4 (17:15) Geant4 Based Simulation of Radiation Dosimetry in
CUDA
K. Murakami1, N. Henderson2, K. Amako1, M. Asai3, T. Aso4, A. Dotti3, A.
Kimura5, M. Gerritsen2, H. Kurashige6, J. Perl3, T. Sasaki1
1
KEK, Japan; 2Stanford University, USA; 3SLAC National Accelerator
Laboratory, USA; 4Nagaoka University of Technology, Japan; 5Ashikaga
Institute of Technology, Japan; 6Kobe University, Japan
N18-5 (17:30) Progress with Uncertainty Quantification in Generic
Monte Carlo Simulations
P. Saracco, M. Begalli, M. G. Pia, INFN, Italy
N18-6 (17:45) Online Software Methods for a Trigger in the
Experiment PANDA.
G. Boca, University of Pavia, Italy
On behalf of the PANDA collaboration
N18-7 (18:00) Software Development for CMS-2023
D. J. Lange, Lawrence Livermore National Laboratory, USA
Tuesday - RTSD Oral
Presentations
R06 CdZnTe and CdTe: Medical Applications 1
Tuesday, Oct. 29 10:30-12:15 Hall E1&E2
Session Chairs: Jan S. Iwanczyk, DxRay, Inc., United States
Ling-Jian Meng, University of Illinois at UrbanaChampaign, United States
R06-1 (10:30, invited) Small-Pixel CdTe and CZT Detectors for
Ultrahigh Resolution Emission Tomography Applications
L.-J. Meng, L. Cai, Z.-M. Shen, X.-C. Lai, J.-C. Zhang, University of Illinois at
Urbana-Champaign, USA; R. Durrant, K. Spartiotis, Oy Ajat Ltd, Finland
R06-2 (10:50) Sub-100 μm Fine Pitch CZT Detector Fabrication and
Hybridization for High Flux X-Ray Imaging Applications
H. Li, J. Eger, A. Emerick, S. A. Soldner, M. Prokesch
eV Products, Inc., USA
R06-3 (11:05, invited) Clinical Trials of CdZnTe-Based Trans-Rectal
Gamma Camera for Prostate Cancer Imaging: Preliminary Results
and Comparison Studies
Y. Cui1, T. Lall2, B. Franc3, S. Cho4, T. Johnson3, Y. Seo5, K. Vandewalker3, J.
Ionson2, M. Pomper4, G. Camarda1, A. Hossain1, G. Yang1, U. Roy1, B. Tsui4,
R. B. James1
1
Brookhaven National Laboratory, USA; 2Hybridyne Imaging Technologies,
Inc., Canada; 3Radiological Associates of Sacramento, USA; 4Johns Hopkins
Medical Institutions, USA; 5University of California at San Francisco, USA
R06-4 (11:25) Spectral X-Ray Imaging with CdZnTe Arrays
W. C. Barber1, J. C. Wessel2, E. Nygard2, N. Malakhov2, N. E. Hartsough1, T.
Gandhi1, J. S. Iwanczyk1
1
DxRay Inc., USA; 2Interon AS, Norway
R06-5 (11:40, invited) Low Dose CT by CdTe Photon-Counting
Detectors
T. Aoki1,2, A. Koike1,2, H. Morii2, T. Okunoyama1, H. Mimura1
1
Shizuoka University, Japan; 2ANSeeN Inc., Japan
R06-6 (12:00) Charge Sharing Characterization of Pixelated CdTe
Diodes for Nuclear Medicine Imaging Detectors
G. Ariño, M. Chmeissani, G. De Lorenzo, M. Kolstein, C. Puigdengoles,
Institut de Fisica d’Altes Energies (IFAE), Spain; E. Cabruja, R. Martnez, IMBCNM (CSIC) Centro Nacional de Microeletrnica,, Spain
R07 Si Detectors
Tuesday, Oct. 29 15:30-16:00 Hall E1&E2
Session Chair: Wonho Lee, Korea University, South Korea
R07-1 (15:30) A Study of the Electric Field Close to the Si-SiO2
Interface of Silicon Strip Sensors Before and After 1 MGy of X-Ray
Irradiation
T. Poehlsen, E. Fretwurst, R. Klanner, J. Schwandt, J. Zhang
Institute for Experimental Physics, University of Hamburg, Germany
R07-2 (15:45) Dual Threshold X-Ray Photon Counter
A. O. Lee, G. M. Williams, Voxtel, Inc., USA
Tuesday - RTSD Oral Presentations 113
Tuesday
Tuesday - Joint Oral
Presentations
J1 NSS-MIC Joint Session I
Tuesday, Oct. 29 10:30-12:30 GBR 102-104
Session Chairs: Robert S. Miyaoka, University of Washington, United
States
Dennis R. Schaart, Delft University of Technology,
Netherlands
J1-1 (10:30) Development of a Sub-Millimeter Resolution MPPC
Based PET Block Detector for Micro-Insert II System
J. Wen1, B. Ravindranath1, T. Dimitre1, D. Catherall2, Y.-C. Tai1
1
Washington University in St. Louis, USA; 2St. Louis University, USA
J1-2 (10:45) Evaluation of a 12 x 12 Pixel SiPM Array for SmallAnimal PET
J. Du1, J. Schmall1, M. S. Judenhofer1, K. Di1, Y. Yang1, N. Pavlov2, S.
Buckley2, C. Jackson2, S. R. Cherry1
1
UC Davis, USA; 2SensL Technologies Ltd., Ireland
J1-3 (11:00) BASIC32_ADC, a Front-End ASIC for SiPM Detectors
G. Matarrese1,2, F. Ciciriello1,2, F. Corsi1,2, F. Licciulli1,2, C. Marzocca1,2, E.
Chesi3, E. Nappi2,3, A. Del Guerra4, A. Rudge3, J. Seguinot3
1
POLITECNICO DI BARI, Italy; 2Istituto Nazionale di Fisica Nucleare - Sez.
BARI, Italy; 3CERN, Switzerland; 4Universit di Pisa ed Istituto Nazionale di
Fisica Nucleare - Sez. Pisa, Italy
J1-4 (11:15) STiC2 - First Characterization Results of a SiPM
Readout ASIC for Time-of-Flight Applications
T. Harion, W. Shen, K. Briggl, H. Chen, A. Gil, V. Stankova, H.-C. SchultzCoulon, Kirchhoff-Insitute for Physics, University of Heidelberg, Germany; P.
Fischer, M. Ritzert, ZITI, University of Heidelberg, Germany
J1-5 (11:30) Low Dead Time SPAD Digital Readout Architecture for
Real Time PET
M.-A. Tetrault, E. Desaulniers Lamy, A. Boisvert, R. Fontaine, J.-F. Pratte
Sherbrooke University, Canada
J1-6 (11:45) Comparative Timing Measurements of the SingleEnded Versus Differential Readout of MPPC Arrays.
K. Doroud1, E. Auffray1, P. Jarron2, T. Meyer1, P. Lecoq1
1
CERN, Switzerland; 2university of Torino, italy
J1-7 (12:00) Timing and Energy Resolution of New near-UV SiPMs
Coupled to LaBr:Ce for TOF-PET
R. I. Wiener1, J. S. Karp1, S. Surti1, A. Gola2, A. Ferri2, A. Tarolli2, C.
Piemonte2
1
University of Pennsylvania, USA; 2Fondazione Bruno Kessler (FBK-irst), Italy
J1-8 (12:15) Electrical Delay Line Multiplexing for Pulsed Mode
Radiation Detectors
R. Vinke, J. Y. Yeom, C. S. Levin, Stanford University, USA
J2 NSS-MIC Joint Session II
Tuesday, Oct. 29 14:00-16:00 GBR 102-104
Session Chairs: Seiichi Yamamoto, Nagoya University Graduate
School of Medicine, Japan
Paul R. Lecoq, CERN, Switzerland
J2-1 (14:00) Photonic Crystal Structures for Improved Scintillator
Performance
B. Singh1, C. J. Summers2, H. Menkara2, V. V. Nagarkar1
1
Radiation Monitoring Devices, Inc., USA; 2PhosphorTech Corporation, USA
114 Tuesday - Joint Oral Presentations Tuesday
J2-2 (14:15) A Detector Module Composed of Pixellated Crystal
Coupled to SiPM Strips
M. Morrocchi1,2, M. G. Bisogni1,2, G. Ambrosi3, M. Ionica3, R. Wheadon4, C.
Marzocca5, G. Pirrone1,2, M. A. Piliero1,2, A. Del Guerra1,2
1
INFN Pisa, Italy; 2University of Pisa, Italy; 3INFN Perugia, Italy; 4INFN Torino,
Italy; 5Polytechnic of Bari, Italy
J2-3 (14:30) Petiroc, a New Front-End ASIC for Time of Flight
Application
J. L. Fleury1, S. Callier2, C. de La Taille2, N. Seguin2, D. Thienpont2, F.
Dulucq2, S. Ahmad1, G. Martin2
1
Weeroc, France; 2Omega/IN2P3/CNRS, France
J2-4 (14:45) Time Resolution Deterioration with Increasing Crystal
Length in a TOF-PET System and Concepts for Improvements
S. Gundacker, E. Auffray Hillemanns, P. Jarron, A. Knapitsch, T. Meyer, P.
Lecoq
CERN, Switzerland
J2-5 (15:00) Improved Time Resolution in TOF-PET by DoubleSided Readout of High-Aspect-Ratio Scintillation Crystals
S. Seifert, D. R. Schaart
Delft University of Technology, The Netherlands
J2-6 (15:15) A Novel Sub-Millimeter Resolution PET Detector with
TOF Capability
T. Xu1,2, J. Wen3, Q. Wang3, T. Ma1,2, Y. Liu1,2, Y.-C. Tai3
1
Tsinghua University, China; 2Ministry of Education, China; 3Washington
University in St.Louis, United States
J2-7 (15:30) MR-Compatibility Study of a Preclinical, Fully Digital
PET/MRI Insert
J. Wehner1, B. Weissler1,2, P. Dueppenbecker2,3, P. Gebhardt3, W. Ruetten4,
D. Schug1, F. Kiessling1, V. Schulz1,2
1
RWTH Aachen University, Germany; 2Philips Research Europe, Germany;
3
King’s Colloge, United Kingdom; 4Philips Research Europe, The Netherlands
J2-8 (15:45) MRC-SPECT: an Ultrahigh Resolution MR-Compatible
Small Animal SPECT System Based on Energy Resolved Photon
Counting CdTe Detectors
L. Cai1, Z. Shen1, C.-T. Chen2, L.-J. Meng1
1
University of Illinois at Urbana Champaign, USA; 2University of Chicago,
USA
J3 NSS-MIC-RTSD Joint Session
Tuesday, Oct. 29 16:30-18:30 GBR 102-104
Session Chairs: Erika Garutti, University of Hamburg, Germany
Youngho Seo, University of California, San Francisco,
United States
J3-1 (16:30) Structured GdI3:Ce Scintillators for X-Ray and Neutron
Imaging
H. B. Bhandari, S. R. Miller, J. Glodo, V. V. Nagarkar
RMD, Inc., USA
J3-2 (16:45) Novel Photon-Counting Energy-Resolving Ultra-Fast
X-Ray Detector
M. G. Ertosun, C. S. Levin, Stanford University, USA
J3-3 (17:00, invited) Comparison of Si, CdTe and GaAs Sensors on
Medipix Detectors for X-Ray Imaging Applications
S. Procz, M. Pichotka, A. Fauler, A. Zwerger, M. Fiederle, FMF University
Freiburg, Germany; E. Hamann, KIT, Germany; M. Mix, Uniklinikum
Freiburg, Germany
J3-4 (17:15) WidePIX Large Area Pixel Detector with 6.5
Megapixels
J. Jakubek, M. Jakubek, M. Platkevic, P. Soukup, D. Turecek, D. Vavrik
Institute of Experimental and Applied Physics of the Czech Technical
University in Prague, Czech Republic
Tuesday - Joint Oral Presentations 115
Tuesday
J3-5 (17:30, invited) High Resolution Photon Counting X-Ray
Imaging Arrays
J. S. Iwanczyk1, E. Nygard2, H. Ding3, J. C. Wessel2, H. M. Cho3, S. Molloi3,
N. Malakhov2, G. Wawrzyniak2, N. E. Hartsough1, T. Gandhi1, W. C. Barber1
1
DxRay, Inc., USA; 2Interon AS, Norway; 3The University of California Irvine,
USA
J3-6 (17:45, invited) Experimental Tests of a 10x10cm CZT Imaging
System for Gamma and -SPECT Imaging
F. Mathy1, O. Monnet1, G. Montemont1, L. Maingault1, S. Stanchina1, L.
Riou2, S. Maitrejean3, F. Carrel4, V. Schoepff4, A.-S. Lalleman5, G. Ferrand5,
D. Benoit6, I. Buvat6, C. Guezzi2, L. Verger1
1
CEA-Leti, MINATEC Campus, France; 2INSERM U1039, FRANCE; 3BIOSPACE
LAB SA, FRANCE; 4CEA-LIST, FRANCE; 5CEA-DAM, FRANCE; 6IMNC, FRANCE
J3-7 (18:00) A 2D 4x4 Channel Readout ASIC for Pixelated CdTe
Detectors for Medical Imaging Applications
J.-G. Macias-Montero1, M. Sarraj2, M. Chmeissani1, G. De Lorenzo1, C.
Puigdengoles1, R. Martinez3
1
Institut de Fisica d’Altes Energies (IFAE), Spain; 2Texas Instruments Inc., USA;
3
Instituto de Microelectronica de Barcelona (IMB-CNM), Spain
J3-8 (18:15) Unipolar Time-Differential Charge Sensing in NonCrystalline Solids
A. H. Goldan, J. A. Rowlands, W. Zhao
Stony Brook University, USA
116 Tuesday - Joint Oral Presentations Tuesday
Tuesday - NSS Poster
Presentations
NPO1 NSS Poster I
Tuesday, Oct. 29 14:00-16:00 Hall B2
Session Chairs: Ralf Engels, Forschungszentrum Juelich GmbH,
Germany
Kyeong Min Kim, Korea Institute of Radiological and
Medical Sciences, South Korea
New Concepts in Solid-State Detectors
NPO1-1 SiPM Signal Shape Influence on Detector Time Resolution.
A. Ronzhin, Fermi National Accelerator Laboratory, USA
NPO1-2 Monolithic Active Pixel Sensor for Low Energy X-Ray
Counting Applications
M. Kachel, IPHC RAMSES, France; W. Dulinski, IPHC Groupe
Microelectronique, France
NPO1-3 Evaluation Test of SOI Monolithic Pixel Detectors with
High-Speed Readout Electronics
T. Miyoshi1, Y. Arai1, Y. Fujita1, K. Hara2, S. Honda2, Y. Ikegami1, Y. Ikemoto1,
K. Tauchi1, A. Takeda3, T. Tsuboyama1, Y. Unno1
1
High Energy Accelerator Research Organization (KEK), Japan; 2University of
Tsukuba, Japan; 3Graduate University for Adbanced Studies (SOKENDAI), Japan
NPO1-4 Response of Organic Photodiodes with Glass/PET
Substrates to X-Rays Combined with Plastic Scintillator
E. Takada, K. Fujii, Toyama National College of Technology, Japan; Y.
Namito, HIGH ENERGY ACCELERATOR RESEARCH ORGANIZATION, Japan; T.
Nakamura, Tohoku University, japan
NPO1-5 ProXY: Ultra-Fast, High Resolution Tracker for Proton CT
P. Giubilato1,2, W. Snoeys3, D. Bisello1,2, S. Mattiazzo1, N. Pozzobon1,2, D.
Pantano1,2, J. Wyss4
1
Padova University, Italy; 2Padova INFN, Italy; 3CERN, Switzerland; 4Cassino
University, Italy
NPO1-6 HL-LHC/ATLAS Hybrid Pixel Detector Upgrade : Test
Results of the First 3D-IC Prototype Chip
P. Pangaud1, D. Arutinov2, M. Barbero1, F. Bompard1, P. Breugnon1, J.-C.
Clemens1, D. Fougeron1, M. Garcia-Sciveres3, S. Godiot1, T. Hemperek2, H.
Kruger2, T. Obermann2, A. Rozanov1, N. Wermes2
1
Centre de Physique des Particules de Marseille, France; 2Physikalisches
Institut der Universitt Bonn, Germany; 3Lawrence Berkeley National
Laboratory, USA
NPO1-7 Fabrication of Silicon-Photomultiplier Multi Arrays and the
Performance Test
H. Y. Lee1, J. A. Jeon1, S. K. Yang2, J. Lee1, I. H. Park1
1
Sungkyunkwan University, Seoul; 2Yonsei University, Seoul
NPO1-8 Effects of Substrate Thinning on the Properties of
Quadruple Well CMOS MAPS
S. Zucca1, M. Manghisoni1,2, L. Ratti1,3, V. Re1,2, G. Traversi1,2, S. Bettarini4,5,
F. Forti4,5, F. Morsani5
1
INFN-Pavia, Italia; 2University of Bergamo, Italia; 3University of Pavia,
Italia; 4University of Pisa, Italia; 5INFN-Pisa, Italia
NPO1-9 CMOS Active Pixel Sensor with Improved Rolling Shutter
Architecture for Charged Particles Tracking
F. Guilloux1, G. Bertolone2, G. Claus2, A. Dorokhov2, Y. Degerli1, W.
Dulinski2, M. Goffe2, A. Himmi2, C. Hu-Guo2, K. Jaaskelainen2, F. Morel2, F.
Orsini1, M. Specht2, I. Valin2, M. Winter2
1
IRFU, France; 2IPHC, France
Tuesday - NSS Poster Presentations 117
NPO1-10 Suppression of Interface-Induced Noise by the Control of
Tuesday
Electron-Phonon Interactions
T. Kang, I. Kwon, M. D. Hammig
University of Michigan, U.S.
NPO1-11 Noise Analysis of a Silicon-on-Insulator (SOI) Pixel Sensor
with 500 μm Thick High Resistivity Silicon for X-Ray Free-Electron
Laser Experiments
S. Ono1, T. Hatsui1,2, M. Omodani2, K. Kobayashi1,2, T. Kudo1, T. Imamura3,
T. Ohmoto3, A. Iwata3
1
RIKEN, Japan; 2JASRI, Japan; 3A-R-Tec Corp, Japan
NPO1-12 Minimizing Dead Edge Area for Si Detectors with the
Surface Modification and Laser Backside-Dicing
W. Chen, Z. Li, Brookhaven National Lab, USA
Scintillators and Scintillation Detectors
NPO1-13 Optimizing the Compositions of (YxLu1-x-y)3Al5O12: Ce3y
Ceramic Scintillators Base on the Combinational Material Chip
Method
W. Li1,2, Y. Shi1, H. Wu1, Y. Wu1, Y. Zeng1, H. Kou1, Y. Pan1, X. Feng1, K.
Zhang2,1, Q. Liu1, J. Li1
1
Shanghai Institute of Ceramics, Chinese Academy of Sciences, China;
2
University of Chinese Academy of Sciences, China
NPO1-14 Growth and Scintillation Properties of Ce:Li6GdxY1x(BO3)3 Mixed Crystals
S. Pan, Shanghai Institute of Ceramics, Chinese Academy of Sciences,
China; F. Yang, G. Ren, ,
NPO1-15 Performances of a 1”x1” CLYC Scintillator Detector
F. Camera1, A. Giaz2, N. Blasi2, B. Million2, S. Brambilla2, S. Riboldi1, L.
Pellegri1, S. Ceruti1, E. Bizzarri3
1
University of Milano and INFN sect. of Milano, Italia; 2INFN Section of
Milano, Italia; 3University of Milano, Italia
NPO1-16 Crystal Growth, Structure, Optical and Scintillation
Properties of Ce3+-Doped Tb2.2Lu0.8Al5O12 Single Crystal
Y. Wu, G. Ren
Shanghai Institute of Ceramics, Chinese Academy of Sciences, China
NPO1-17 Characterization of GSO:Ce Phosphorescence after LowDose-Rate Gamma-Ray Irradiation
H. Simões1, S. Ghithan1,2, M. Loureiro3, P. Crespo1,2
1
LIP - Coimbra, Portugal; 2University of Coimbra, Portugal; 3Hamamatsu
Photonics France, Spain
NPO1-18 Characteristics of Potholed Polystyrene-Based
Gd2O2S:Tb Scintillator
Y. Kim, H. Yoo, C. Kim, G. Cho
Korea Advanced Institute of Science and Technology, South Korea
NPO1-19 Study of VUV Scintillation in Rare Earth Doped Lutetium
Fluoride
K. Fukuda1, T. Yanagida2, Y. Fujimoto2, S. Ishizu1, N. Kawaguchi1, H.
Sekiya3
1
Tokuyama Corporation, Japan; 2Kyushu Institute of Technology, Japan;
3
University of Tokyo, Japan
NPO1-20 Position Sensitivity in a 3” x 3” LaBr3:Ce Scintillator
A. Giaz1, N. Blasi1, S. Brambilla1, C. Boiano1, F. Camera1,2, S. Coelli1,2, B.
Million1, S. Riboldi1,2, O. Wielend1
1
INFN sezione di Milano, Italy; 2Universit degli studi di Milano, Italy
NPO1-21 3” x 3” LaBr3:Ce Detector Response to Monochromatic
Protons
A. Giaz1, N. Blasi1, S. Brambilla1, C. Boiano1, F. Camera1,2, S. Ceruti1,2,
B. Million1, S. Riboldi1,2, O. Wielend1, M. Ziębliński1, B. Szpak3, A. Maj3,
P. Bednarczyk3, M. Ciemała3, B. Fornal3, M. Jastrząb3, M. Kmiecik3, M.
Krzysiek3, W. Męczyński3, P. Napiorkowski4
1
INFN sezione di Milano, Italy; 2Universit degli studi di Milano, Italy; 3Henryk
Niewodniczański Institute of Nuclear Physics, Polish Academy ofSciences,
Poland; 4Heavy Ion Laboratory, Warsaw University, Poland
118 Tuesday - NSS Poster Presentations NPO1-22 A Prototype Tracking Detector for the Cosmic-Ray Muon
Tuesday
Tomography of Legacy Nuclear Waste Containers
G. Yang1, A. Clarkson1, D. J. Hamilton1, M. Hoek1, D. G. Ireland1, R.
Johnstone2, R. Kaiser1, T. Keri1, S. Lumsden1, D. F. Mahon1, B. McKinnon1,
M. Murray1, S. Nutbeam-Tuffs1, C. Shearer2, C. Staines2, C. Zimmerman2
1
University of Glasgow, United Kingdom; 2National Nuclear Laboratory,
Uinted Kingdom
NPO1-23 Preparation of Translucent Gd2Si2O7:Ce Polycrystalline
Thin Plates and Their Scintillation Performance for Alpha-Particles
M. Nishikata, A. Ueda, M. Higuchi, J. H. Kaneko, Y. Tsubota, Hokkaido
University, Japan; H. Ishibashi, Hitachi Chemical Co., Ltd, Japan
NPO1-24 Crystal Growth and Luminescence Properties of Pure and
Pr-Doped NaGd(WO4)2 Single Crystal
H. Jiang1, G. Rooh2, H. J. Kim3, J. M. Lee1, Y. J. Lee1, S. Khan3, S. H. Kim4
1
Tsinghua University, China; 2Abdul Wali Khan Unversity, Pakistan;
3
Kyungpook National University, Korea; 4Cheongju University, Korea
NPO1-25 Optical and Scintillation Properties of Pr3+ Activated
KY3F10 with Different Dopant Concentration
K. Fukuda1, T. Yanagida2, Y. Fujimoto2, N. Kawaguchi1
1
Tokuyama Corporation, Japan; 2Kyushu Institute of Technology, Japan
NPO1-26 Application of KCl:Eu2+ Storage Phosphors to Wide-Range
Neutron Detection
K. Sakasai, K. Toh, T. Nakamura, K. Takakura, C. Konno, Y. Iwamoto
Japan Atomic Energy Agency, Japan
NPO1-27 Measurement of Volatile Components in Iodine- and
Chlorine-Based Starting Materials for Scintillators and Neutron
Detectors
S. Swider, S. Motakef, W. Higgins, K. Becla, CapeSym, Inc., USA
NPO1-28 Temperature Response of Light Output of Cadmium
Tungstate
D. Totsuka1, T. Yanagida2, Y. Fujimoto2, T. Yanada1
1
Nihon Kessho Kogaku Co., LTD., Japan; 2Kyushu Institute of technology, Japan
NPO1-29 A Prototype Real-Time Dose Distribution Monitoring
System Using Plastic Scintillators Connected to Optical Fiber for
Interventional Radiology
F. Nishikido1, T. Moritake2, H. Ito1, T. Yamaya1
1
National Institute of Radiological Sciences, japan; 2Tsukuba University,
Japan
NPO1-30 Small Animal PET Detector Design Using Continuous
Scintillator, DOI Capability and SiPM Sensors, a Monte Carlo
Simulation Study
I. Valastyan, P. Bojtos, J. Molnar, MTA Atomki, Hungary; M. Colarieti-Tosti,
Royal Institute of Technology, Sweden
NPO1-31 Experimental Study of Quasi-monoenergetic Photon Field
of 200 keV Using a Radioactive Source with Back-Scatter Layout
S. M. Tajudin, Y. Namito, T. Sanami, H. Hirayama, H. Iwase
High Energy Accelerator Research Organisation (KEK), Japan
NPO1-32 Temperature-Dependent Photoluminescence Study of
Pb2+ Doped Strontium Iodide
J. Chen1,2, S. Wang1, Y. Du1, L. Chen1
1
Shanghai Institute of Ceramics, Chinese Academy of Sciences, China;
2
University of Chinese Academy of Sciences, China
NPO1-33 Nd Concentration and Temperature Dependency of Nd3+Doped Garnet Transparent Ceramic Scintillators in UV-VIS-IR Regions
Y. Fujimoto, T. Yanagida, Kyushu Institute of Technology, Japan; H. Yagi, T.
Yanagidani, Konoshima Chemical Co., Ltd., Japan
NPO1-34 Crystal Growth and Infra-Red Scintillation Property of
Yb:Gd3Al2Ga3O12 Material
A. Suzuki1, S. Kurosawa1, S. Nagata1, T. Yamamura1, J. Pejchal1,2, A.
Yamaji1, Y. Yokota1, K. Shirasaki1, Y. Homma1, D. Aoki1, T. Shikama1, A.
Yoshikawa1,3
1
Tohoku University, japan; 2Institute of Physics AS CR, Czech Republic; 3C&A
Corporation, Japan
NPO1-35 Radiation Response of Transition Metals-Doped Lithium
Tuesday
Aluminate Crystals
Y. Fujimoto, T. Yanagida, Kyushu Institute of Technology, Japan; K.
Kamada, J. Pejchal, Tohoku University, japan
NPO1-36 Comparative Study of Scintillation Properties of BaF2 and
BaMgF4 Scintillators Using Streak Camera System Equipped with
Pulsed X-Ray Source
Y. Fujimoto, T. Yanagida, Kyushu Institute of Technology, Japan; K. Fukuda,
Tokuyama Corporation, Japan
NPO1-37 The Radiation Hard BGO Crystals for Atrophysics
Applications.
D. N. Grigoriev1,2, R. R. Akhmetshin1, E. A. Babichev1, Y. A. Borovlev3,
N. V. Ivannikova3, V. F. Kazanin1,4, G. N. Kuznetsov3, V. N. Shlegel3,4, Y. V.
Vasiliev3,4
1
Budker Institute of Nuclear Physics, Russia; 2Novosibirsk State Technical
University, Russia; 3Nikolaev Institute of Inorganic Chemestry, Russia;
4
Novosibirsk State University, Russia
NPO1-38 Evaluation of Undoped Zinc Sulfide Crystal Scintillator
T. Yanagida, Y. Fujimoto, S. Yanagida
Kyushu Institute of Technology, Japan
NPO1-39 Study of Rare-Earth Free Sn2+ Doped Glass Scintillator
T. Yanagida1, H. Masai2, Y. Fujimoto1, M. Koshimizu3
1
Kyushu Institute of Technology, Japan; 2Kyoto University, Japan; 3Tohoku
University, Japan
NPO1-40 Heavy, Ultrafast Scintillator of Yb3+-Doped Transparent
Ceramic Lu2O3
T. Yanagida, Y. Fujimoto, Kyushu Institute of Technology, Japan; H. Yagi, T.
Yanagitani, Konoshima Chemical Co. Ltd., Japan
NPO1-41 Scintillation Properties of Ceramic Ce-Doped
Gd3(Ga,Al)5O12
T. Yanagida, Y. Fujimoto, Kyushu Institute of Technology, Japan; H. Yagi,
T. Yanagitani, Konoshima Chemical Co. Ltd., Japan; K. Kamada, Tohoku
University, japan
NPO1-42 Properties of Single Crystal Para-Terphenyl as Medium
for High Resolution TOF Detector
M. De Gerone1,2
1
University, Italy; 2INFN, Italy
NPO1-43 Whether the Light Yield Amplification by Laser Could
Significantly Improve the Energy Resolution of a Scintillation
Detector
V. V. Samedov
National Research Nuclear University (Moscow Engineering Physics
Institute), Russian Federation
NPO1-44 Scintillation Properties of Rare-Earth Co-Doped Eu:SrI2
Single Crystals Grown by the Moisture Controlled Micro-Pullingdown Method
K. Nishimoto1, Y. Yokota2, S. Kurosawa1,2, K. Kamada2,3, A. Yoshikawa1,2,3
1
Institute for Materials Research, Tohoku University, Japan; 2New Industry
Creation Hatchery Center (NICHe), Japan; 3C&A Corporation, Japan
NPO1-45 3D X-Ray Tomography Employing SrI2-Scintillator Thin
Screens
L. Alaribe1, A. Cecilia2, T. Rolo2, M. Fiederle1,2
1
FMF-Freiburg Materials Research Center, Germany; 2Institute for
Synchrotronradiation and Photons (ISP)/Karlsruhe Institute of Technology
(KIT), Germany
NPO1-46 Design of a System to Measure the NonProproportionality of Scintillators Using Angular Information and
High Speed Digital Electronics
S. B. Donnald1, H. Rothfuss1,2, J. W. Cates1, J. P. Hayward1,3, L. Eriksson2, C.
L. Melcher1
1
University of Tennessee, United States; 2Siemens, United States; 3Oak Ridge
National Laboratory, United States
120 Tuesday - NSS Poster Presentations NPO1-47 Hygroscopicity Evaluation of Halide Scintillators
Tuesday
M. Zhuravleva1, L. Stand1, H. Wei1, L. A. Boatner2, J. O. Ramey2, K. Shah3,
A. Burger4, C. L. Melcher1
1
University of Tennessee, USA; 2Oak Ridge National Laboratory, USA;
3
Radiation Monitoring Devices, Inc., USA; 4Fisk University, USA
NPO1-48 Doped Lead Fluoride Chloride Crystals for the HHCAL
Detector Concept
F. Yang, L. Zhang
Crystal Lab, HEP, California Institute of Technology, American
NPO1-49 Effects of Al Metal Doping on Optical and Scintillation
Properties of Eu:LiSrAlF6 Crystals
S. Suzuki1, Y. Yokota2, A. Yamaji1, N. Kawaguchi1,3, K. Fukuda3, S.
Kurosawa1,2, K. Kamada2,4, A. Yoshikawa1,2,3
1
IMR Tohoku university, Japan; 2NICHe, Tohoku University, Japan;
3
TOKUYAMA Corp, Japan; 4C&A Corp, Japan
NPO1-50 Development of Dosimeter with Shape-Controlled
Ce:Y3Al5O12 Scintillator Crystals
Y. Yokota1, S. Kurosawa1, M. Sato2, H. Goto2, K. Shikimura2, K. Tota2, T.
Kagaya2, T. Ito2, K. Onodera1,2, K. Kamada1,3, A. Yoshikawa1,3
1
Tohoku University, Japan; 2TDK Corporation, Japan; 3C&A Corporation,
Japan
NPO1-51 Development of Gamma-Ray Imager with Stacked
Scintillation Detectors Sensitive in All Directions
J. Kawarabayashi, T. Takahashi, H. Tomita, T. Iguchi, Nagoya University,
Japan; E. Takada, Toyama National College of Technology, Japan
NPO1-52 A Study on Spectral Properties of Y and F Doped BSO
Single Crystals
W. Xiong, Y. Zhou, H. Yuan
Shanghai Institute of Ceramics, P.R. China
NPO1-53 Luminescence Properties of Transition Metal Ions Doped
CaYAlO4 Single Crystals
A. Yamaji1, S. Kurosawa1,2, J. Pejchal1, A. Suzuki1, K. Kamada1,3, Y. Yokota2,
A. Yoshikawa1,2,3
1
Institute for Materials Research, Tohoku University, Japan; 2New Industry
Creation Hatchery Center, Tohoku Uhttp://www.nss-mic.org/2013/
submissions/Instructions.asp#LIniversity, Japan; 3C&A Corporation, Japan
NPO1-54 Scintillation Properties of Rb2LiGdBr6: Ce3+ Single
Crystals
G. Rooh, Abdul Wali Khan University, Mardan, Pakistan; H. J. Kim, H.
Park, Kyungpook National University, Republic of Korea; S. Kim, Cheongju
University, Republic of Korea
NPO1-55 Optimization of the Anneal Condition for the Ce-doped
Gd3(Al,Ga)5O12 Scintillators Grown by the Czochralski Method
M. Seki1, S. Kurosawa1, K. Kamada1, Y. Yokota1, A. Yoshikawa1,2
1
Tohoku University, Japan; 2C & A corporation, Japan
NPO1-56 Luminescence properties of Tb and Ce doped PbF2-based
oxyfluoride glass-ceramics
S. Shang, G. Ren, Y. Wu, Shanghai Institute of Ceramics, China; L. Qin, H.
Shi, K. Shu, China Jiliang University, China
NPO1-57 Study of radiation hardness of Ce doped GPS scintillators
to X-rays
M. Minagawa, Y. Tsubota, J. H. Kaneko, H. Koizumi, M. Higuchi, K. Toi,
Hokkaido University, Japan; H. Ishibashi, Hitachi Chemical co. ltd., Japan
NPO1-58 Optimization of Cerenkov Fiber-Optic Dosimeter for
Measuring Therapeutic Photon Beams
K. W. Jang, S. H. Shin, W. J. Yoo, B. Lee
Konkuk University, Korrea
NPO1-59 Development of LaBr3(Ce) Array, SHOGUN, for NextGeneration in-Beam Gamma-Ray Spectroscopy of Exotic Nuclei at
the RIBF
R. Taniuchi1, M. Niikura1, S. Momiyama1, T. Miyazaki1, H. Sakurai1,2, P.
Doornenbal2, K. Matsui1, N. Kobayashi1, Z. Xu1
1
The University of Tokyo, Japan; 2RIKEN Nishina Center, Japan
NPO1-60 Fabrication and Characterization of Fiber-Optic Cerenkov
Tuesday
Radiation Sensor System to Verify Spent Fuel
S. H. Shin1, K.-T. Han1, D. Jeon1, S. Hong1, S. G. Kim1, H. I. Sim1, K. W. Jang1,
W. J. Yoo1, B. G. Park2, B. Lee1
1
Konkuk University, Korea; 2Soonchunhyang University, Korea
NPO1-61 A Low Energy Gamma Ray Detector Able to Work in High
Magnetic Field
P. Legou, P. Perez, Y. Sacquin, L. Liszkay, J.-P. Pansart, B. Vallage, P. Debu,
M. Combet, J.-M. Reymond, D. Desforge
CEA Saclay, France
NPO1-62 Unconventional Light Guide for Optical Crosstalk
Reduction in Close-Packed Scintillator Matrix and MAPMT
Assembly
Y.-Y. Chang1, C.-W. Chen1, J.-J. Huang1, J. Nam1, M.-H. A. Huang1,2, M.-Z.
Wang1, P. Chen1, T.-C. Liu1
1
National Taiwan University, R.O.C.; 2National United University, R.O.C.
NPO1-63 Coincidence Summing Correction in NaI(Tl) Detectors:
Measurements and Simulations
M. Dhibar, C. K. Singh, A. K. Gourishetty
IIT Roorkee, India
NPO1-64 Investigation on a Self-Shielding Type Radiation Detector
for Simplified Food Screening Based on a Scintillator.
S. Nabeta, J. H. Kaneko, Y. Tsubota, Hokkaido University, Japan; T. Nakano,
T. Nakano, Hokuto Denshi Co.,Ltd., Japan; H. Takahashi, H. Tanaka,
Hokkaido Research Organization, Japan
NPO1-65 The Measurement of the Luminescence Response of the
CaMoO4 Crystal to the Kinetic Energy of Proton Beam
S. J. Kang, Semyung University, Korea; H. J. Kim, J. H. So, Kyungpook
National University, Korea
NPO1-66 Investigation of Ta2O5/SiO2 Thin Film Deposited
Scintillator Array
S. J. Jeon1, M. S. Kim2, W. S. Yoo2, K. S. Joo1
1
Myongji University, Korea; 2Advanced Microwave Technology, Korea
NPO1-67 Development of Li-Rich Scintillator for Neutron Imaging
K. Hishinuma1, K. Kamada2,3, S. Kurosawa1,2, S. Suzuki1, A. Yamaji1, Y.
Yokota2, A. Yoshikawa1,2,3
1
Tohoku University, IMR, Japan; 2Tohoku University, NICHe, Japan; 3C&A
Corp, Japan
NPO1-68 Test and Simulation of Plastic Scintillator Strips Readout
by Silicon Photomultipliers
G. Balbi1, M. Boldini1, V. Cafaro1, F. Fabbri1, V. Giordano1, A. Montanari1, T.
Rovelli2, G. Torromeo1, N. Tosi2
1
I.N.F.N.- Sezione di Bologna, Italy; 2University of Bologna, Italy
NPO1-69 Development of Europium Doped Lutetium Oxide Thin
Scintillators for Transmissive X-Ray Beam Diagnostics
T. Martin1, D. Pothin1, T. Mairs1, P. Fajardo1, J. Borrel1, C. Dujardin2, A.
Pereira2, M. Levinta2, E. Paiser1, P. Chappelet1, M. Guijarro1, C. Cruz De La
Torre3
1
ESRF, FRANCE; 2CNRS, France; 3CELLS-ALBA, Spain
NPO1-70 Luminescence Properties of Infrared Scintillation
Fluoride Crystals
J. Pejchal1,2, S. Kurosawa1, A. Yamaji1, Y. Yokota1, A. Yoshikawa1
1
Tohoku University, Japan; 2Institute of Physics AS CR, Czech Republic
NPO1-71 Characterization and Evaluation of TemperatureStabilized Large Volume CeBr Detectors
D. R. Nakazawa1, P. Schotanus2, F. Bronson1
1
Canberra Industries, Inc., USA; 2Scionix, Inc., Netherlands
NPO1-72 Wide Range Automatic Energy Calibration of LaBr3:Ce
Detector by the Self-Activity Lines
M. Omer, H. Negm, H. Zen, T. Kii, K. Masuda, H. Ohgaki, I. Daito, Institute
of Advanced Energy, Kyoto University, Japan; R. Hajima, T. Shizuma, T.
Hayakawa, N. Kikuzawa, JAEA, Japan
122 Tuesday - NSS Poster Presentations NPO1-73 Improving the Neutron and Gamma-Ray Response of
Tuesday
Cs2LiLaBr6:Ce
K. Yang, P. R. Menge, Saint-Gobain Crystals, USA; V. Ouspenski, SaintGobain Recherche, France
NPO1-74 Overcoming Non-Uniformity Limits for Space-Borne Hard
X-Ray Polarimeter POLAR Based on Scintillators and Multi-Anode
Photo-Multipliers
W. Hajdas, Paul Scherrer Institut, Switzerland
NPO1-75 Performance and Thermal Variance Investigation of
Selected Elpasolite Crystals
D. D. S. Coupland, B. S. Budden, L. C. Stonehill
Los Alamos National Laboratory, United States
NPO1-76 Growth of CsCe2Cl7 and Cs3CeCl6 Utilizing the Bridgman
Method
A. C. Lindsey, B. D. Blalock, M. Zhuravleva, C. L. Melcher
The University of Tennessee, United States
NPO1-77 Scintillation Properties of Halide Compounds Activated
with Monovalent Ions Tl+, Na+ and In+
E. D. Bourret, M. M. Gascon, G. Gundiah, S. E. Derenzo, G. A. Bizarri
NPO1-78 Effect of Annealing Treatments on Optical and
Scintillation Properties of Ce Doped Gd3(Al2,Ga3)O12 Single
Crystals and Their Relationship to Defects
A. Fukabori, E. C. Samulon, E. D. Bourret, G. A. Bizarri
NPO1-79 Optimization of Dual Sided Readout of Plastic Pixels for
Neutron Block Detectors
M. A. Laubach1, X. Zhang1, J. P. Hayward1,2, J. W. Cates1
1
University of Tennessee, USA; 2Oak Ridge National Laboratory, USA
NPO1-80 Development of Nd-Doped Infra-Red Scintillator
S. Kurosawa1, Y. Yokota1, K. Kamada1, A. Yoshikawa1,2
1
NPO1-81 Luminescent Properties of Ce :(La,Gd)2Si2O7 Grown by
the Micro Pulling down Method
T. Nihei1, S. Kurosawa2, Y. Shoji2, Y. Yokota2, K. Kamada2,3, K. Toota1, T.
Kagaya1, K. Onodera1, A. Yoshikawa2,3
1
TDK corporation, Japan; 2Tohoku University, Japan; 3C&A Corporation,
Japan
NPO1-82 Czochralski Growth of Bulk Ce : RE2Si2O7 Single Crystals
(RE=La, Gd) and Their Scintillation Properties.
A. Yoshikawa1,2,3, S. Kurosawa1, Y. Shoji1,3, Y. Yokota2, K. Kamada2,3, T.
Nihei4, K. Tota4, T. Kagaya4, K. Onodera4, V. V. Kochurikhin3, M. Nikl5
1
IMR, Tohoku University, Japan; 2NICHe, Tohoku University, Japan; 3C&A
Corporation, Japan; 4TDK corporation, Japan; 5Institute of Physics AS CR,
Czech Republic
NPO1-83 Vacuum Ultraviolet Optical Characteristics Investigated
using Extreme Ultraviolet Free Electron Laser
K. Yamanoi, Y. Shinzato, T. Shimizu, N. Sarukura, Institute of Laser
Engineering, Osaka University, Japan; M. Cadatal-Raduban, Institute of
Natural Sciences, Massey University,, Nea Zealand; A. Yoshikawa, 4Institute
for Materials Research, Tohoku University, Japan; T. Togashi, JASRI/
SPring-8, Japan; T. Ishikawa, RIKEN/SPring-8, Japan
NPO1-84 Methodology for Removing the Effect of SelfContamination of Lanthanum Bromide (LaBr3:Ce) Scintillation
Detector
M. S. Lee, Cheongju University, Korea; S. J. Han, Korea Institute of Nuclear
Safety, Korea; T. S. Park, Korea Research Institute of Standards and Science
(KRISS), Korea
NPO1-226 Potassium Strontium Iodide: a New High Light Yield
Scintillator
L. Stand, M. Zhuravleva, A. Lindsey, C. L. Melcher
University of Tennessee, U.S.A.
Photodetectors
Tuesday
NPO1-85 CABAC : A CCD Clocking and Biasing Chip for LSST
Camera
H. Lebbolo1, V. Tocut2, P. Antilogus1, C. Juramy1, S. Russo1
1
CNRS IN2P3 LPNHE, France; 2CNRS IN2P3 LAL, France
NPO1-86 Investigation of Geiger-Mode APD Using SOI Technology
D. Nio, The Graduate University for Advanced Studies(SOKENDAI), Japan; Y.
Arai, High Energy Accelerator Research Organization(KEK), Japan
NPO1-87 Single Photoelectron Time Resolution (SPTR) of Silicon
Photomultipliers (SiPMs) with Large Sensitive Area.
A. Ronzhin, S. Los, E. Ramberg, P. Murat, Fermi National Accelerator
Laboratory, USA; H. Kim, C.-T. Chen, C.-M. Kao, University of Chicago,
USA; M. Mazzillo, B. Carbone, G. Fallica, A. Piana, D. Sanfilippo, G. Valvo,
STMicroelectronics, Italy
NPO1-88 Development of Assembly of SOI for Impurity Transport
Study in LHD
S. Muto1, T. Miyoshi2, N. Tamura1, H. Nakanishi1, Y. Itoh1, K. Tsukada3, T.
Tsuru4, Y. Ono5, S. Sudo1, Y. Arai2
1
National Institute for Fusion Science, JAPAN; 2High Energy Accelerator
Research Organization (KEK), JAPAN; 3Nagoya Institute of Technology,
JAPAN; 4Kyoto Univ., JAPAN; 5The University of Tokyo, JAPAN
NPO1-89 Timing Resolution Dependence on MPPC Geometry and
Performance
T. Nagano, N. Hosokawa, A. Ishida, R. Tsuchiya, K. Sato, K. Yamamoto
NPO1-90 A Large Area SiPM Array coupled to a LaBr3 crystal for a
TPR Spectrometer
A. Fazzi1, M. Nocente2, M. Tardocchi3, V. Varoli1, G. Gorini2, M. Lorenzoli1,
C. Pirovano1, G. Valvo4, G. Fallica4, A. Casiraghi2
1
Politecnico di Milano, Italy; 2Universita’ di Milano Bicocca, Italy; 3IFP-CNR,
Italy; 4ST Microelectronics, Italy
NPO1-91 Progresses in Large Dynamic Range Silicon
Photomultipliers with Bulk Quenching Resistor
C. Li, Z. Chen, Y. Li, B. Li, K. Wang, K. Liang, R. Yang, D. Han
Beijing Normal University, China
NPO1-92 Performance Evaluation of Novel SiPM for Medical
B. Seitz, A. Stewart, University of Glasgow, United Kingdom; C. Jackson, K.
O’Neill, L. Wall, SensL Technologies Ltd., Ireland
NPO1-94 Production and Performance Measurement of
Multipurpose Silica Aerogel Cherenkov Counter
H. Ito1, S. Han1,2, S. Ijima1, H. Kawai1, S. Kodama1, D. Kumogoshi1, K.
Mase1, H. Nakayama3, M. Tabata1,4
1
Graduate School of Science, Chiba Univ., Japan; 2National Institue
of Radiological Science (NIRS), Japan; 3Kisarasu National College pf
Technology, Japan; 4Japan Aerospace Exploration Agency (JAXA), Japan
NPO1-95 Performance of Clear Fiber TOP Detector
D. Kumogoshi1, S. Han1,2, S. Iijima1, H. Ito1, H. Kawai1, S. Kodama1, K.
1
Graduate School of Science, Chiba Univ., Japan; 2National Institute of
Radiological Science, Japan; 3Kisarazu National College of Technology,
Japan; 4Japan Aerospace Exploration Agency, Japan
NPO1-96 Analysis of Timing Resolution of a Digital Silicon
Photomultiplier.
S. Mandai, E. Charbon
NPO1-97 Development of Large Area PIN Photodiode Detector
D.-H. Kah, H. J. Hyun, H. B. Jeon, K. H. Kang, H. J. Kim, H. Park
Kyungpook National University, Korea
124 Tuesday - NSS Poster Presentations NPO1-98 Precision Measurement Technique of Photon Detection
Tuesday
Efficiency of Silicon Photomultiplier
S. K. Yang1, H.-Y. Lee2, J.-A. Jeon3, S.-W. Kim1, J. Lee2, I. H. Park2
Yonsei University, Korea; 2SungKyunKwan University, Korea; 3Ewha
Womans University, Korea
NPO1-99 Micro-PMT - a New Photodetector for Gamma
Spectrometry and Fast Timing?
T. Szczesniak, M. Grodzicka, M. Moszynski, M. Szawlowski
National Centre for Nuclear Research, Poland
NPO1-100 Performance of Low Afterpulsing Multi-Pixel Photon
Counters for Time-of-Flight Positron Emission Tomography
A. A. Wagadarikar, A. Ivan, S. Dolinsky
GE Global Research, USA
NPO1-101 New Approach to Calibration of Low Gain PMTs and
SiPMs Using Transit Time Histograms
S. Vinogradov
P.N. Lebedev Physical Institute of the Russian Academy of Sciences, Russia
NPO1-102 A Model for the Trigger and Validation Probabilities in a
Digital Silicon Photomultiplier
V. L. Westerwoudt, V. Tabacchini, G. Borghi, S. Seifert, D. R. Schaart
Delft University of Technology, Netherlands
NPO1-103 Effect of Afterpulsing and Optical Crosstalk on Dark
Count Rate and Dark Current in Silicon Photomultipliers
J. Breuer, Siemens Healthcare, Germany; S. Cho, M. Schmand, Siemens
Medical Solution Inc., USA
NPO1-104 Development of a Pixelated Gaseous Photo-Multiplier
for Micro Pattern Gas Detectors
T. Ito, T. Sumiyoshi, Tokyo Metropolitan University, Japan; F. Tokanai,
Yamagata University, Japan; T. Okada, H. Sugiyama, Hamamatsu
Photonics K.K, Japan
NPO1-105 Performance of X-Ray Detectors with SiPM Readout in
Cargo Accelerator-Based Inspection Systems
S. Vinogradov1, A. Arodzero2,3, R. C. Lanza2
1
P.N. Lebedev Physical Institute of the Russian Academy of Sciences, Russia;
2
Massachusetts Institute of Technology, USA; 3RadiaBeam Technologies,
USA
NPO1-106 Development of Threshold Type Fiber Cherenkov
Counter
S. Kodama1, S. Han1,2, S. Iijima1, H. Ito1, H. Kawai1, D. Kumogoshi1, K.
1
Graduate School of Science Chiba University, Japan; 2National Institute
of Radiological Science, Japan; 3Kisarazu National College of Technology,
Japan; 4Japan Aerospace Exploration Agency, Japan
NPO1-107 Performance Analysis of Digital Silicon Photomultipliers
for PET
I. Somlai-Schweiger1, F. R. Schneider1, K. Shimazoe2, H. Takahashi2, S. I.
Ziegler1
1
Klinikum rechts der Isar, Nuklearmedizinische Klinik und Poliklinik,
Technische Universitaet Muenchen, Germany; 2Department of
Bioengineering, Graduate School of Engineering, The University of Tokyo,
Japan
NPO1-108 Performance of Avalanche Photodetectors at Cryogenic
Temperatures
A. Cardini1, V. Fanti2,1, A. Lai1
1
INFN Sezione di Cagliari, Italy; 2Universita degli Studi di Cagliari, Italy
NPO1-109 SiPM Control by Measuring Bias Current
F. Retiere, TRIUMF, Canada
NPO1-110 Test of the Hamamatsu MPPC Module S11834 as a
Photon Detector for RICH
E. Tahirovic1, S. Korpar1,2, P. Krizan1,3, R. Pestotnik1
1
Jozef Stefan Institute, Slovenia; 2University of Maribor, Slovenia; 3University
of Ljubljana, Slovenia
1
Tuesday
NPO1-111 Effect of Micro-Cell Size on Photon Number Resolution
of Silicon Photomultiplier
H. Kim, C. Kim, H. Yoo, Y. Kim, J. Kim, M. S. Kim, D. Lee, M. Cho, D.-U. Kang,
G. Cho
KAIST(Korea Advenced Institute of Science and Technology), Republic of
Korea
NPO1-112 Characterization of the First Prototypes of VSiPMT:
Preliminary Results.
G. Barbarino1,2, F. C. T. Barbato1,2, R. de Asmundis2, G. De Rosa1,2, G.
Fiorillo2, P. Migliozzi2, C. M. Mollo2, D. Vivolo1,2
1
University of Naples, Italy; 2INFN, Italy
Gaseous Detectors
NPO1-113 The Triple GEM Detector as Beam Monitor for
Relativistic Hadron Beams
E. Aza1,2, S. Puddu1,3, M. Silari1, F. Murtas1,4, M. Magistris1
1
CERN, Switzerland; 2Aristotle University of Thessaloniki, Greece; 3University
of Bern, Switzerland; 4LNF-INFN, Italy
NPO1-114 Two-Dimensional High Position Resolution MRPC for
Muon Tomography
Y. Wang, L. Shi, X. Fan, W. Zhu, J. Wang, X. Wang, J. Cheng
Engineering Physics Department, Tsinghua University, China
NPO1-115 Application of Carbon Fiber Proportional Counters in a
Large-Array Detector for Charged Particle Detection
K. Chung, J. D. Bacon, K. N. Borozdin, C. L. Morris, H. Miyadera, J. O. Perry
Los Alamos National Laboratory, USA
NPO1-116 The Development of time projection chamber front-end
ASIC for the Neutron Lifetime Measurement
H. Yokoyama1, M. M. Takana2, T. Yamada1, K. Mishima1, S. Yamashita1
1
The University of Tokyo, Japan; 2High Energy Accelerator Research
Organization, Japan
NPO1-117 2D MWPC Neutron Detector for the Multi-Purpose
Reflectmeter (MR) of CSNS
H. Xu, Z. Sun, Y. Chen, L. Tian, Y. Wang, G. Yang
Institute of High Energy Physics, Chinese Academy of Sciences, China
NPO1-118 The Long-strip Multi-Gap Resistive Plate Chamber
(LMRPC) for STAR MTD
Y. Sun, C. Li, R. Yang, Q. Yang, X. Wang, USTC, China; L. Ruan, Z. Xu, BNL,
USA
NPO1-119 Study on the Rate Capability of MRPCs Assembled with
Thin Glass
W. Zhu1, Y. Wang1, S. Feng2, J. Wang1, X. Huang1, L. Shi1, V. Golovatyuk3, V.
Babkin3, M. Rumiantzev3, M. Buriakov3
1
Tsinghua University, China; 2China Three Gorges University, China; 3Joint
Institute for Nuclear Research, Russia
NPO1-120 Development of GEM Tracker for the J-PARC E16
Experiment
W. Nakai1,2, K. Aoki3, Y. Aramaki2, H. En’yo2, K. Kanno1,2, D. Kawama2,
Y. Komatsu1,2, S. Masumoto1, H. Murakami1, Y. Obara1, K. Ozawa3, M.
Sekimoto3, T. Shibukawa1, T. N. Takahashi2, Y. S. Watanabe1, S. Yokkaichi2
1
University of Tokyo, Japan; 2Institute of Physical and Chemical Research,
Japan; 3High Energy Accelerator Research Organization, Japan
NPO1-121 Experimental Determination of W for High Energy
Heavy Charged Particles in Gases
S. Sasaki, T. Sanami, K. Saito, K. Iijima, Y. Kishimoto, High Energy
Accelerator Research Organization, JAPAN; T. Murakami, National Institute
of Radiological Science, Japan
NPO1-122 Production and Quality Control of Large Scale GEM
Detectors for CMS High Eta Upgrade
C. Armaingaud, CERN, Switzerland
126 Tuesday - NSS Poster Presentations Tuesday
NPO1-123 Charge Dynamic Study with High Synchrotron Photon
Intensity Flux Using Multi-Channel Ionization Chamber
A. K. O. Nasr, A. H. Walenta, W. Schenk
Siegen University, Germany
NPO1-124 High Count Rate Ionization Chamber at in-Flight
Fragment Separator
E. Kim, M. Kim, C.-C. Yun, J.-W. Kim
Institute for Basic Science, Korea
NPO1-125 Tera Foundation
R. Kieffer, U. Amaldi, F. Sauli, M. Buccantonio, D. Watts
Tera Foundation CERN, Switzerland
NPO1-126 Ultra Light Drift Chambers for Precision Physics
M. Cascella1,2, F. Grancagnolo1, S. Rella1,2, G. Tassielli3,4, A. Pepino2, M.
Panareo2, A. L’Erario1,2, A. Miccoli1
1
INFN of Lecce, Italy; 2University of Salento, Italy; 3Fermilab, USA; 4Marconi
University, Italy
NPO1-127 Cluster Counting/Timing Techniques for Drift Chambers
M. Cascella1,2, F. Grancagnolo1, G. Tassielli3,4
1
University, Italy
NPO1-128 Results from the SOFIA/ANDES TwinMUSIC
B. Voss, GSI Helmholtzzentrum fuer Schwerionenforschung GmbH,
Germany
On behalf of the SOFIA / ANDES-collaboration
NPO1-129 Design of the SuperFRS Twin GEM-TPC
B. Voss, C. Kaya, J. Kunkel, A. Prochazka, GSI Helmholtzzentrum fuer
Schwerionenforschung GmbH, Germany; F. Garcia, Helsinki Institute of
Physics, University of Helsinki, Finland
NPO1-130 Upgrade of the Ultra-Pure Gas System for the CLOUD
Experiment at the CERN
R. Guida, CERN, Switzerland
On behalf of the CLOUD collaboration
NPO1-131 Feasibility Study of Gamma Electron Vertex Imaging
Based on Time Projection Chamber
Y.-S. Kim, H. R. Lee, Y. S. Yeom, H. S. Kim, C. H. Kim
Hanyang University, Republic of Korea
Radiation Imaging Detectors
NPO1-132 The Effect of Temperature and Charged Particle Fluence
on the Resistivity of Polycrystalline CVD Diamond Sensors for
Tracking of Charged Particles
S. Seidel, M. Hoeferkamp, R. Wang
University of New Mexico, USA
NPO1-133 X-Ray Spectroscopic Measurement and Spatial Mapping
of Edgeless Radiation Detectors
X. Wu1, J. Jan2, K. Juha3, J. Martin2, V. Sami3, E. Simo1
1
VTT, Finland; 2Institute of Experimental and Applied Physics, Czech
Technical University in Prague, Czech Republic; 3Advacam, Finland
NPO1-134 Fast and Precise Verification of Proton Beam Position,
Range, and Dose by using a Plastic Scintillator at PET-Dedicated
Cyclotrons
S. Ghithan1,2, S. J. C. do Carmo2, F. Alves2,3, R. Ferreira Marques1,2, F.
Fraga1,2, H. Simões1, P. Crespo1,2
1
LIP - Coimbra, Portugal; 2University of Coimbra, Portugal; 3Polytechnic of
Coimbra, Portugal
NPO1-135 Developing Space Radiation Monitoring Devices Using
the Medipix Radiation Imaging Detectors
L. S. Pinsky, M. Kroupa, J. Idarraga-Munoz, S. M. Hoang, University of
Houston, USA; E. Semones, A. Bahadori, NASA/Johnson Space Center, USA;
J. Jakubek, S. Pospisil, D. Turecek, Czech Technical University in Prague,
Czech Republic
Tuesday
NPO1-136 Radiometric and Stereoscopic Image Fusion for Use in
Nuclear Decommissioning
J. Dormand, A. J. Boston, D. S. Judson, L. J. Harkness, H. C. Boston, A.
Sweeney, T. Hughes, University of Liverpool, England; G. T. Bolton, R. J.
Taylor, National Nuclear Laboratory, England
NPO1-137 A Modified a 3-Tr CMOS X-Ray Image Sensor for Low
Distortion in Source Follower
D. Lee, M. Cho, M. S. Kim, D.-U. Kang, C. Kim, H. Yoo, Y. Kim, J. Kim, H. Kim,
K. Park, KAIST, KOREA
NPO1-138 Estimation of Dose Distribution for High Dose Rate
Ir-192 After-loading Brachytherapy Source through SPECT Image
Reconstruction by Using a Monte Carlo Method
M. Park, H. Jung, G. Kim, S. Park, Korea Institute of Radiological and
Medical and Sciences, Republic of Korea; J. Kim, I. Choi, H. Kim, Y. Yoon,
Korea University, Republic of Korea
NPO1-139 Study on the Fast Signal Transfer for Large Area 3TR
X-Ray Image Sensor
M. S. Kim, D. U. Kang, C. Kim, H. Yoo, Y. Kim, J. Kim, D. Lee, M. Cho, H.
Kim, K. Park, H. Kim, G. Cho, Korea Advanced Institute of Science and
Technology, Republic of Korea, B. W. Kim, JBTP, Republic of Korea’
NPO1-140 Large Area X-Ray CMOS Digital Pixel Sensor Based on
Pulse Width Modulation for High Frame Rate Application
D. Kang, D. Lee, M. S. Kim, C. Kim, M. Cho, H. Yoo, Y. Kim, H. Kim, J. Kim, K.
Park, H. Kim, E. J. Lee, K. T. Lim, G. Cho,KAIST, Republic of Korea
NPO1-141 An Innovative Liquid Xenon Charge Multiplier for
Enhanced Particle Detection
S. Dussoni1, G. Signorelli1, L. Galli1,2, A. Papa2, M. Grassi1, A. M. Baldini1
1
INFN Section of Pisa, Italy; 2Paul Scherrer Institute, Switzerland
NPO1-142 High Energy Gamma Detection Using a Germanium
Strip Detector
R. A. Kroeger, SSCPAC, USA
NPO1-143 Hardware Emulation of Two-Dimensional Arrays of
Detectors
A. Abba, F. Caponio, G. Buccheri, P. Lombardi, A. Geraci
Politecnico di Milano University, Italy
NPO1-144 Gamma-Ray Visualization Module
H. Suzuki, S. Nakamura, M. Hirayanagi, S. Adachi, T. Uchiyama, S.
Ohsuka, K. Nakamoto, Hamamatsu Photonics K.K., Japan; J. Kataoka, T.
Nishiyama, T. Fujita, K. Takeuchi, Waseda University, Japan
NPO1-145 Development of MPPC Array Module
S. Adachi, S. Nakamura, M. Hirayanagi, H. Suzuki, T. Matsumoto, T.
Uchiyama, T. Baba, M. Watanabe, T. Ohmura
NPO1-146 A Fast 300k X-Ray Camera with an Energy Window
Selection and Continuous Readout Mode
P. Maj, P. Grybos, R. Szczygiel, AGH University of Science and Technology,
Poland; T. Sakumura, Y. Tsuji, Y. Nakaye, Rigaku Corporation, Japan
NPO1-147 Silicon Photomultiplier Compton Telescope for Safety
and Security
L. E. Sinclair, Natural Resources Canada, Canada; P. R. B. Saull, National
Research Council, Canada
NPO1-148 Limits of 3-Dimentional Associated Particle Neutron
Elemental Imaging
D. Koltick, H. Wang, Purdue University, USA
NPO1-149 Backscattering X-Ray Tomography Technique for OneSided Nondestructive Inspection
J. Yoshida, A. Yamazaki, K. Watanabe, A. Uritani, Nagoya University, Japan
NPO1-150 Stereo Compton Cameras for 3-D Localization of
Radioactive Isotopes Optimized by Geant4 Simulation
K. Takeuchi, J. Kataoka, T. Nishiyama, T. Fujita, A. Kishimoto, Waseda
University, Japan; S. Ohsuka, S. Nakamura, S. Adachi, M. Hirayanagi, T.
Uchiyama, Y. Ishikawa, H. Suzuki, T. Kato, Hamamatsu Photonics K.K.,
Japan; T. Nakamori, The University of Yamagata, Japan
NPO1-151 Design of GAGG Based Compton Camera for Unmanned
Helicopter Survey System
K. Shimazoe, Y. Nakamura, H. Takahashi, The University of Tokyo, Japan; Y.
Shikaze, T. Torii, Japan Atomic Energy Agency (JAEA), Japan
NPO1-152 Development of a Compton Camera Based on Digital
SiPMs and GAGG Crystals
K. Shimazoe, T. Orita, H. Takahashi, The University of Tokyo, Japan; I.
Somlai-Schweiger, F. Scheneider, S. Ziegler, Technische Universitaet
Muenchen, Germany; K. Kamada, New Industry Creation Hatchery Center,
Japan
NPO1-153 Progress in the Development of Silica Aerogel as a RICH
Radiator in the Belle II Experiment
M. Tabata1,2, I. Adachi3, N. Hamada4, K. Hara3, M. Higuchi5, T. Iijima6, S.
Iwata7, H. Kakuno7, H. Kawai2, T. Kawasaki8, S. Korpar9,10, P. Krizan11,10, T.
Kumita7, S. Nishida3, S. Ogawa4, R. Pestotnik10, Y. Sakashita7, L. Santelj10,
A. Seljak10, T. Sumiyoshi7, E. Tahirovic10, H. Yamami7, K. Yoshida7, Y. Yusa8
1
Japan Aerospace Exploration Agency (JAXA), Japan; 2Chiba University,
Japan; 3High Energy Accelerator Research Organization (KEK), Japan; 4Toho
University, Japan; 5Tokyo University of Science, Japan; 6Nagoya University,
Japan; 7Tokyo Metropolitan University, Japan; 8Niigata University,
Japan; 9University of Maribor, Slovenia; 10Jozef Stefan Institute, Slovenia;
11
University of Ljubljana, Slovenia
NPO1-154 Development of a New High-Frame-Rate Camera for
Pulsed Neutron Transmission Spectroscopic Radiography
K.-I. Mochiki, Tokyo City University, Japan; T. Kamiyama, Y. Kiyanagi,
Hokkaido University, Japan
NPO1-155 Development of GAGG Gamma Camera System for HighEnergy Gamma Photon Imaging
N. Kawachi, S. Fujimaki, Japan Atomic Energy Agency, Japan; H. Watabe,
Tohoku University, Japan; S. Yamamoto, Nagoya University, Japan
NPO1-156 Variable Size Pattern Generation Methods and
Improvements for the Associative Memory of the ATLAS FTK
Project
NPO1-157 The Focusing Detector of Internally Reflected
Cherenkov Light (FDIRC) for Charged Particle Identification
N. Arnaud1, M. Borsato1, B. Dey2, K. Nishimura3, D. W. G. S. Leith4, B.
Ratcliff4, D. Roberts5, J. Va’vra4, G. S. Varner3
1
Laboratoire de l’Accelerateur Lineaire, France; 2University of California,
USA; 3University of Hawaii, USA; 4SLAC National Accelerator Laboratory,
USA; 5University of Maryland, USA
NPO1-158 A Maximum Likelihood Expectation Maximization
Iterative Image Reconstruction Technique for Mask/Anti-Mask
Coded Aperture Data
E. Brubaker, Sandia National Laboratories, CA, USA
NPO1-159 Directional Moderation for Neutron Imaging of SNM
E. Lukosi, University of Tennessee, USA
NPO1-160 Optimization and Imaging Performance of CMOS APS
X-Ray Detectors for Low-Dose Mammography and High-Resolution
Fluoroscopy Applications
B. K. Cha, C. R. Kim, S. Jeon, R. K. Kim, C.-W. Seo, K. Yang, D. Heo, T.-B. Lee,
KERI(korea Electrotechnology Research Institute), Republic of Korea; M.-S.
Shin, J.-B. Kim, O.-K. Kwon, Hanyang University, Republic of Korea
Environmental Radiation Monitors and
Dosimeters
NPO1-161 Simulation Study of Plastic Scintillator for Electrical
Personal Dosimeter
C. Kim1, H. Yoo1, Y. Kim1, J. Kim1,2, M. S. Kim1, D. Lee1, M. Cho1, H. Kim1, K.
Park1, D.-U. Kang1, G. Cho1
1
KAIST ( Korea Advanced Institute of Science and Technology ), Republic of
Korea; 2Korea Atomic Energy Research Institute, Republic of Korea
Tuesday
NPO1-162 Remote Detector of Alpha-Ray Using Ultraviolet Ray
Emitted by Nitrogen in Air
N. Kume, K. Takakura, K. Nakayama, H. Kuroda, M. Izumi, N. Mukai
TOSHIBA corp., Japan
NPO1-163 Evaluation of Dosimetric Characteristics of a Plastic
Scintillator with a SiPM
H. Yoo, C. Kim, Y. Kim, J. Kim, M. S. Kim, D. Lee, M. Cho, H. Kim, D.-U. Kang,
K. Park, G. Cho, KAIST, S.Korea
NPO1-164 Development of a High Sensitivity Detector Module for
Gamma Camera
T. Ishitsu, I. Takahashi, Y. Ueno, Hitachi Ltd., Japan; K. Nagashima, H.
Takada, N. Yamada, Hitachi Consumer Electronics, Co, Ltd., Japan
NPO1-165 Thermally and Optically Stimulated Luminescence of Ce
and Eu Doped LiCaAlF6
1
NPO1-166 The Real-Time Proton Beam Uniformity Monitoring
System RPUM
I. Britvitch, W. Hajdas, K. Egli, A. Mozzanica, B. Schmitt
Paul Scherrer Institute, Switzerland
NPO1-167 Study of Dosimetric Observables to be used in
Active Pixel Sensor based devices for Interventional Radiology
Applications
L. Bissi1, P. Placidi2,1, E. Conti2,1, D. Magalotti3,1, M. Paolucci4,1, A.
Scorzoni2,1, G. Verzellesi4, L. Servoli1
1
Italian Institute for Nuclear Physics (INFN), Italy; 2University of Perugia,
Italy; 3University of Modena and Reggio Emilia, Italy; 4Azienda USL, Italy
NPO1-168 Simulation of Radiation Monitoring System for Dry
Storage Casks
A. Ivanov, V. Pedash, V. Kolbasin
Institute for scintillation materials NAS of Ukraine, Ukraine
NPO1-169 Development of 90Sr Counter
S. Ijima1, S. Han1,2, H. Ito1, H. Kawai1, S. Kodama1, D. Kumogoshi1, K.
1
Graduate School of Science, Chiba Univ., Japan; 2National Institute of
Radiological Science, Japan; 3Kisarazy National College of Technology,
Japan; 4Japan Aerospace Exprolation Agency (JAXA), Japan
NPO1-170 Basic Study of Complementary Relation of Dosimeter
and Scintillation Properties of Ce-Doped CaF2
T. Yanagida, Y. Fujimoto, Kyushu Institute of Technology, Japan; K.
Watanabe, Nagoya University, Japan; N. Kawaguchi, K. Fukuda,
Tokuyama Corp., Japan; Y. Miyamoto, Chiyoda Technol Corp., Japan; H.
Nanto, Kanazawa Institute of Technology, Japan
NPO1-171 Thermoluminescence Properties of Ce-Doped CaOAl2O3-B2O3 Glasses
Y. Fujimoto, T. Yanagida, Kyushu Institute of Technology, Japan; Y. Futami,
Kumamoto National College of Technology, Japan
NPO1-172 Fabrication Process Dependency of Dosimetric and
Scintillation Properties of Sapphire Crystals
Y. Fujimoto, T. Yanagida, Kyushu Institute of Technology, Japan; Y. Futami,
Kumamoto National College of Technology, Japan
NPO1-173 The REWARD Project: Wide Area Radiation Surveillance
with Semiconductor Detectors
S. Kuehn, University of Freiburg, Germany
On behalf of the REWARD Consortium
NPO1-174 Design and Application of an Ultra Low Current
Digitizer with Large Dynamic Range
H. Gong, J. Li, B. Shao, Tsinghua University, China
NPO1-175 Development of Portable Gamma Camera for
Environmental Radiation Monitoring
K. Shimazoe, H. Takahashi, The University of Tokyo, Japan; K. Kamada,
Tohoku Univeristy, Japan; S. Itoh, H. Sato, Y. Usuki, Furukawa Corporation,
Japan
NPO1-176 Use of Collimated Alpha Particles for the Measurement
of CR-39 Track Densities
V. K. Manchanda, P. M. Joshirao, C. K. Vyas, J. W. Shin, S. W. Hong, K. P.
Eappen
Sungkyunkwan University, South Korea
NPO1-177 Tetraethyl Ammonium Hydroxide (TEAH) as Etchant of
CR-39 for the Determination of Fluence of Alpha Particles
V. K. Manchanda, P. M. Joshirao, C. K. Vyas, J. W. Shin, S. W. Hong, K. P.
Eappen
Sungkyunkwan University, South Korea
NPO1-178 Advanced Sampling Method for Survey Design after
Decommissioing Nuclear Facilities
S. B. Hong, B. K. Seo, J. K. Moon
Korea Atomic Energy Research Instiute, Korea
NPO1-179 Measurements of Activities of Components and
Structure of the TR-13 Cyclotron
D. Kim, S.-I. Bak, J.-S. Chai, C. M. Ham, K.-J. Min, T.-S. Park, J. W. Shin, S.-W.
Hong
SUNGKYUNKWAN UNIVERSITY, Republic of Korea
NPO1-180 An Approach to Study the Distribution of Radon in
Natural Materials Containing Radium
I. S. Dimitrova, K. K. Mitev, T. A. Boshkova, S. B. Georgiev
Sofia University, Bulgaria
NPO1-181 High Sensitive Plutonium Detection for Radioactive
Fallout Monitoring
E. Sala, E. Previtali, M. Clemenza, M. Nastasi
University degli Studi di Milano Bicocca and INFN Milano Bicocca, Italy
NPO1-182 ESA Next Generation Radiation Monitor
L. M. Desorgher, W. Hajdas, B. Ilia, E. Ken, Y. Luo, X. Guo, Paul Scherrer
Institute, Switzerland; F. Chastellain, C. Perreira, R. Muff, RUAG Space,
Switzerland; D. Boscher, ONERA, France; G. Maehlum, D. Meier, IDEAS,
Norway; P. Nieminen, ESA, Netherlands
NPO1-183 Large Rugged HPGe Detector Array for High Efficiency
Gamma-Ray Spectroscopy
B. Pirard, M. Zuvic, A. Broche, J. Clauss, V. Marian, P. Quirin, M.-O.
Lampert, Canberra, France
NPO1-184 Basic Performance of SOI Pixel Detector for Radiation
Monitor
Y. Sekiguchi, H. Hamagaki, T. Gunji, University of Tokyo, Japan; Y. Arai,
High Energy Accelerator Research Organization(KEK), Japan; T. Imamura, T.
Ohmoto, A. Iwata, A-R-Tec Corp., Japan
NPO1-185 Development of Radiation Scanner for Detecting
Radioactive Sources from the Fukushima Daiichi Nuclear Power
Plant
K. Kamada1, K. Takeuchi2, J. Kataoka2, S. Ito3, M. Yoshino3, K. Shimazoe4, S.
Kurosawa1, Y. Yokota1, A. Yoshikawa1, H. Takahashi4
1
Tohoku University, Japan; 2Waseda University, Japan; 3Furukawa Co., Ltd,
Japan; 4The University of Tokyo, Japan
NPO1-186 Beam Calibration Verification of the Beijing HI-13
Tandem Accelerator Based on the ESA SEU Monitor
Y. Luo, W. Hajdas, X. Guo
Paul Scherrer Institut, Switzerland
Neutron Detectors and He-3 Alternatives
Developments
NPO1-187 Plastic Scintillators for Fast Neutrons Registration.
P. N. Zhmurin, A. V. Gektin, V. N. Lebedev, V. N. Pereymak
ISMA Ukraine AS, Ukraine
NPO1-188 Gd-loaded polystyrene-based Plastic Scintillators
P. N. Zhmurin, A. I. Bedrik, E. C. Velmozhnaya, V. N. Lebedev, V. D.
Titskaya, A. F. Adadurov
ISMA Ukraine AS, Ukraine
Tuesday
NPO1-189 Scintillation Properties of Eu-Doped LiF-CaF2 Eutectic
for Neutron Detectors with Different Eu Concentration
1
NPO1-190 Characterization of Detection Limits Using Mock Waste
Matrices in a He-3 Passive Drum Counter for Plutonium Waste
Verification
M. G. Paff, University of Michigan, United States of America; B. Pedersen,
J.-M. Crochemore, European Commission, Joint Research Centre, Italy; V.
Canadell Bofarull, European Commission, EURATOM, Luxembuorg
NPO1-191 Performance Evaluation of a Neutron Grating
Interferometer for Polychromatic Thermal Neutron Beam at ENF
J. Kim1, S. W. Lee2, T. Kim3, C. H. Lim3, C. Ahn4, O. Oh2, Y. Kim2, G. Cho1
1
Korea Advanced Institute of Science and Technology, Republic of Korea;
2
Pusan National University, Republic of Korea; 3Korea Atomic Energy
Research Institute, Republic of Korea; 4National NanoFab Center, Republic
of Korea
NPO1-192 The Measurement of Neutron Energy Spectra in the
High Neutron Flux Environment of Medical Accelerators Using the
Nested Neutron Spectrometer
S. S. Hakmana Witharana, J. Dubeau, DETEC Inc., Canada; A. Licea,
Y. Picard, Canadian Nuclear Safety Commission, Canada; J. Kildea, M.
Evans, McGill University Health Centre, Canada; B. Gurin, University
of Sherbrooke, Canada; E. Berthelette, Molecular Imaging Center of
Sherbrooke, Canada
NPO1-193 Analysis of the Response of Different Scintillators for
Use in Neutron Spectrometry and Dosimetry
N. Khan, R. Machrafi
University of Ontario Institute of Technology, Canada
NPO1-194 Performance of a Prototype ASIC for a High Speed of
the CMOS RPT Neutron Telescope
M. Kachel, D. Husson, S. Higueret, IPHC DRS RAMSES, France; W. Dulinski,
IPHC DRS Groupe Microelectronique, France
NPO1-195 Optical Guide Property of Alternative He-3 Neutron
Detectors Using Solid Scintillators for Nuclear Safeguards
A. Ohzu, T. Nakamura, M. Takase, N. Kurata, M. Haruyama, M. Kureta, K.
Soyama, M. Seya
Japan Atomic Energy Agency, Japan
NPO1-196 A 10B-Based Detector with Macrostructured MultiLayers for Neutron Scattering Applications
I. Stefanescu1, J. Birch2, I. Defendi1, C. Hoglund2,3, L. Hultman2, R. HallWilton3, M. Zee1, K. Zeitelhack1
1
Technische Universitaet Munich, Germany; 2Linkoping University, Sweden;
3
European Spallation Source, Sweden
NPO1-197 Large CLYC:Ce and CLLB:Ce Crystals for Gamma-Neutron
Interrogation Systems
V. Ouspenski, J. Lejay, S. Blahuta, Saint-Gobain Recherche, FRANCE; P.
Menge, Saint-Gobain Crystals, USA
NPO1-198 High Sensitive Neutron-Detection by an NaI(Tl)
Scintillator with a Novel Self-Activation Method
E. Yahiro1, A. Nohtomi1, D. Nakanishi1,2, G. Wakabayashi3, T. Fujibuchi4, Y.
Umezu2, J. Fukunaga2, S. Nagamine2, Y. Nakamura2
1
Kyushu University, Japan; 2Kyushu University Hospital, Japan; 3Kinki
University, Japan; 4Ibaraki Prefectural University, Japan
NPO1-199 The Characteristics of Signals from nTPC and Its
Application in Background Suppression
M. Huang1,2, Y. Li1,2, Z. Deng1,2, J. Li1,2,3, L. He1,2, L. Niu1,2, H. Zhang1,2, Y. Li1,2
1
Tsinghua University, China; 2Ministry of Education, China; 3Institute of High
Energy Physics, China
NPO1-200 Study of Delay-Line Readout for Boron Coated Straw
Detector
H. Yu, H. Gong, X. Wang, J. Li, Y. Li, K. Kang
NPO1-201 Statistical Energy Determination in Neutron Detector
Systems for Neutron Scattering Science
K. Kanaki1, R. J. Hall-Wilton1, K. H. Andersen1, D. Anevski2, J. Birch3, X.-X.
Cai1,4, C. Hoglund1,3, L. Hultman3, I. Jansa Llamas1,4, U. Keiderling5, A.
Khaplanov1,6, O. Kirstein1, C. Schulz5, T. Wilpert5
1
European Spallation Source ESS AB, Sweden; 2Lunds Tekniska Hogskola,
Sweden; 3Linkoping University, Sweden; 4Institute for Energy Technology
IFE, Germany; 5Helmholtz Zentrum Berlin HZB, Germany; 6Institut LaueLangevin ILL, France
NPO1-202 Data Acquisition Board for Position Sensitive Neutron
Detectors
R. Engels, U. Clemens, R. Fabbri, H. Gorke, J. Heggen, G. Kemmerling, T.
Kollmann, H. Loevenich, J. Schelten, C. Wesolek, S. van Waasen
Forschungszentrum Juelich GmbH, Germany
NPO1-203 Design of a ZnS/6LiF Moderated Neutron Detector
Z. W. Bell, Oak Ridge National Laboratory, USA; C. Kline, PartTec, Ltd., USA
NPO1-204 Large Area Event-Counting Thermal Neutron Imaging
Detector Using 106mm Gd Doped Micro Channel Plate
Y. Tian1,2, Y. Yang1,2, J. Pan3, Y. Li1,2, X. Wang1,2, Y. Li1,2
1
Tsinghua University, China; 2Ministry of Education, China; 3Night Vision
Tech. Co., Ltd, China
NPO1-205 Characterization of an Optical Fiber Type Detector for
Boron Neutron Capture Therapy Using a Small LiCaAlF6 Scintillator
Y. Kawabata, K. Watanabe, A. Yamazaki, T. Iguchi, A. Uritani, graduate
school of engineering nagoya university, Japan; N. Kawaguchi, K. Fukuda,
S. Ishidu, Tokuyama Corporation, Japan; T. Yanagida, cKyusyu Institute of
Tech, Japan; A. Yoshikawa, Tohoku University, japan
NPO1-206 Recent Simulation Results of GEM-Based Detector for
the Fast Neutrons by GEANT4 MC Code
J.-T. Rhee, H. G. Kim, M. Jamil, Advanced Institute for Physics, Konkuk
University, Korea South; Y. J. Jeon, LCD Research Center, Konkuk University,
Korea South
NPO1-207 Simulation Response of He-3 Filled Proportional
Counter for Thermal Neutrons
M. Jamil, J.-T. Rhee, H. G. Kim, Konkuk University, Korea South
NPO1-208 Basic Study on a Transparent Rubber Sheet Type
Neutron Detector Dispersing Small Pieces of LiCaAlF6 Scintillator
D. Sugimoto1, K. Watanabe1, A. Yamazaki1, T. Iguchi1, A. Uritani1,
K. Fukuda2, S. Ishidu2, N. Kawaguchi2, T. Yanagida3, Y. Fujimoto4, A.
Yoshikawa3
1
Nagoya University, Japan; 2Tokuyama Corporation, Japan; 3Kyusyu
Institute of Technology, Japan; 4Tohoku University, japan
NPO1-209 Response Measurements of a Neutron Dosimeter for
Epi-Thermal Region Using a Pulsed White Neutron Beam
T. Matsumoto, H. Harano, A. Masuda, National Institute of Advanced
Industrial Science and Technology, Japan; J.-I. Hori, Kyoto University, Japan;
M. Takada, S. Kamada, National Institute of Radiological Sciences, japan
NPO1-210 Time-of-Flight Measurement of Low-Energy
Components of Quasi-Monoenergetic High-Energy Neutron Field
A. Masuda1, T. Matsumoto1, H. Harano1, Y. Tanimura2, Y. Shikaze2, S.
Kurashima2, M. Hagiwara3, Y. Unno1, J. Nishiyama4, M. Yoshizawa2, H. Seito2
1
National Institute of Advanced Industrial Science and Technology, Japan;
2
Japan Atomic Energy Agency, Japan; 3High Energy Accelerator Research
Organization, Japan; 4Tokyo Institute of Technology, Japan
NPO1-211 Evaluation of Anguler Dependence of Neutron
Detection Efficiency for a ZnS-Based Scintillator Detector
T. Nakamura, K. Toh, T. Kawasaki, K. Honda, H. Suzuki, M. Ebine, A.
Birumachi, K. Sakasai, K. Soyama, Japan Atomic Energy Agency, Japan; M.
Katagiri, Ibaraki University, Japan
NPO1-212 2-D Neutron Beam Monitor using B-10 Thin Film
C. H. Lim1, H. Kim1, J.-Y. Kim2, S.-J. Cho1, H. K. Kim3, M.-K. Moon1
1
Korea Atomic Energy Research Institute, Republic of Korea; 2Korea
Advanced Institute of Science and Technology, Republic of Korea; 3Pusan
National University, Republic of Korea
Tuesday
NPO1-213 Investigation of Gamma-Ray Sensitivity of Neutron
Detectors Based on Thin Converter Films
A. Khaplanov1,2, J.-C. Buffet2, J.-F. Clergeau2, J. Correa2, P. Van Esch2, M.
Ferraton2, B. Guerard2, R. Hall-Wilton1, F. Piscitelli2
1
European Spallation Source, Sweden; 2Institute Laue Langevin, France
NPO1-214 A Study of a Secondary Neutron Spectrum in a Medical
Accelerator Using a Liquid Scintillator
Y.-R. Kang, M. Lee, H.-J. Kim, D.-H. Jeong, J. K. Kim, K. Yang
Research Center, Dongnam Inst. of Radiological & Medical Sciences,
Republic of Korea
NPO1-215 Fabrication and Performance of Corrugated BoronCoated Straw Neutron Detectors
J. L. Lacy, A. Athanasiades, C. S. Martin, L. Sun, G. J. Vazquez-Flores
Proportional Technologies, Inc., USA
NPO1-217 High-Yield Reel-to-Reel Boron-10 Coating System for
Large‐Area Neutron Detectors
J. L. Lacy, G. J. Vazquez-Flores, M. Regmi, S. Davenport, A. Athanasiades,
C. S. Martin, L. Sun, Proportional Technologies, Inc., USA
NPO1-218 Straw-Based Large Area Neutron Science Detectors with
Fast Low-Noise Electronic Readout
J. L. Lacy, L. Sun, A. Athanasiades, C. S. Martin, G. J. Vazquez, T. D. Lyons
Proportional Technologies, Inc., U.S.A.
NPO1-219 Neutron Spectrometry for Nondestructive Assay of UF6
in Storage Cylinders
W. Mengesha, S. Kiff, M. Gerling, P. Marleau, E. Brubaker
Sandia National Laboratories (SNL), USA
NPO1-220 Development of Single Bonner Sphere Neutron Energy
Spectrometer with Onion-like Structure
M. Ushida, K. Watanabe, A. Yamazaki, A. Uritani, T. Iguchi, J.
Kawarabayashi, H. Tomita, Depertment of Materials,Physics Energy
Engineering,Graduate School of Engineering,Nagoya University, Japan; T.
Ogata, T. Muramatsu, Mitsubishi Heavy Industries,Ltd., Japan
NPO1-221 Development of the IFE Spectrometer for in-Channel
Neutron Spectrometry
X.-X. Cai1,2, S. Deledda1, K. Johansson1, I. Llamas-Jansa1,2, M. H. Sorby1, B.
C. Hauback1
1
Institute for Energy Technology, Norway; 2European Spallation Source ESS
AB, Sweden
NPO1-222 Solution Grown Thin Film and Nanorod ZnO Thermal
Neutron Scintillators
K. Pradel, G. S. Mickum, Y. Hu, Y. Ni, Z. L. Wang, C. J. Summers, B. D. B.
Klein, N. E. Hertel, Georgia Institute of Technology, USA
NPO1-223 First Results of an Active-Converter Neutron
Spectrometer
A. Fazzi, M. Lorenzoli, A. Pola, V. Introini, V. Varoli, G. D’Angelo, C.
Pirovano, S. Agosteo, Politecnico di Milano, Italy
NPO1-224 Linear-Position-Sensitive Detectors with 10BF3 - Ageing
and Possible Solutions
S. Alimov1, J.-C. Buffet2, B. Guerard2, J. Pentenero2, C. Rethfeldt1, J.
Schleuer1, C. Schulz1, T. Wilpert1
1
Helmholtz-Zentrum Berlin, Germany; 2Institut Laue-Langevin, France
NPO1-225 Study on a SiPM Neutron Detector with Scintillators
H. Kim, G. Cho, J. Kim, H. Kim, DepartmentKorea Advanced Institute of
Science and Technology, Korea; B.-S. Kang, College of Medical Science,
Konyang University, Korea
Tuesday - RTSD Poster
Presentations
R05 RTSD Poster I
Tuesday, Oct. 29 08:00-10:00 Hall B2
Session Chairs: Manhee Jeong, Korea Atomic Energy Research
Institute, South Korea
Anwar M. Hossain, Brookhaven National Laboratory,
United States
Semiconductor Materials for Radiation
Detection
R05-1 Antimony Tri-Iodide Radiation Detectors
T. Onodera1, K. Mochizuki2, N. Nakamura2, K. Hitomi3, T. Shoji1
1
Tohoku Institute of technology, Japan; 2Ishinomaki Senshu University,
Japan; 3Tohoku University, Japan
R05-2 Deformations as a Tool for Defect Levels Control: ZeroCharged Te-Antisite in CdTe
A. Shepidchenko, S. Mirbt, A. Hkansson, M. Klintenberg
Uppsala University, Sweden
R05-3 Electrical Properties of Cd(Mn)Te Single Crystals
P. Fochuk1, Z. Zakharuk1, I. Rarenko1, Y. Nykoniuk2, L. Shcherbak1, A.
Savitskyj1, O. Kopach1, I. Nakonechnyi1, O. Panchuk1, A. Bolotnikov3, R.
James3
1
Chernivtsi National University, Ukraine; 2National University of Water
Management and Natural Resources Application, Ukraine; 3Brookhaven
National Laboratory, USA
R05-4 Direct Deposition of Thick Polycrystalline CdTe Films on the
Medipix3 Readout Chip
S. Schuett, A. Vogt, C. Haas, F. Fischer, J. Feyrer, M. Fiederle
Freiburger Materialforschungszentrum, Germany
R05-5 TlBr Crystal for Radiation Detectors Grown by Low Pressure
Bridgman Method
D. J. Kim1, H. S. Kim1, Y. S. Kim1, M. H. Jeong1, H. J. Choi1,2, W. I. Song1,3, J.
H. Ha1
1
Korea Atomic Energy Research Institute, Republic of Korea;
2
Sungkyunkwan University, Republic of Korea; 3Chonbuk University,
Republic of Korea
R05-6 Micro-Raman Study on Polycrystalline CdTe
D. Heo, B. Cha, K. Yang, S. Jeon
Korea Electrotechnology Research Institute, Korea
R05-7 The Study for Fabrication of Digital X-Ray Detector based on
PDLC
J. Y. Hong1, Y. J. Heo2, J. W. Shin1, G. S. Cho1, J. Y. Lee1, S. U. Heo1, S. H.
Nam1
1
Inje University, Republic of Korea; 2International University, Republic of
Korea
R05-8 Defect Engineering of BiI3 Single Crystals for Enhanced
Room Temperature Gamma-Ray Detection
H. Han, M. Hong, S. Gokhale, S. B. Sinnott, K. A. Jordan, J. E. Baciak, J. C.
Nino
University of Florida, United States
R05-9 Phase Transformation from β-PbO into α-PbO Using Simple
Method for Application to Direct Conversion Radiation Detector
G.-S. Cho1, J.-W. Shin1, S.-U. Heo1, D.-K. Kim1, Y.-S. Kim2, S.-H. Nam1
1
Inje University, Republic of Korea; 2Changseong Corporation, Republic of
Korea
Tuesday - RTSD Poster Presentations 135
Tuesday
R05-10 Comparison of Energy Resolution Spectra of CdTe Timepix
Detector Working in Photon Counting and Time-over-Threshold
Mode
D. Krapohl1, C. Frojdh1, E. Frojdh2, E. Gimenez3, D. Maneuski4, V. O’Shea4,
N. Tartoni3, G. Thungstrom1, H. Wilhelm3, K. Wraight4
1
Mid Sweden University, Sweden; 2CERN, Switzerland; 3Diamond Light
Source, England; 4Glasgow University, Scotland
R05-11 Passivation of Defects in CdZnTe Crystals in Hydrogen
Atmosphere
A. M. Hossain1, K. Hossain2, G. Yang1, A. E. Bolotnikov1, G. S. Camarda1, Y.
Cui1, U. N. Roy1, R. B. James1
1
Brookhaven National Laboratory, USA; 2Amethyst Research Inc., USA
R05-13 BTeO as a Novel Material for Ionizing Radiation Detection
L. Fornaro1, J. F. Carvalho2, Z. V. Vargas2, I. Aguiar1, M. Perez Barthaburu1,
H. Bentos Pereira1
1
Universidad de la Republica, CURE, Uruguay; 2Universidade Federal de
Goias, Brasil
R05-14 Fabrication and Characterization of Large Area Cd0.9Zn0.1Te
Guarded Pixilated Detector
S. K. Chaudhuri1, K. J. Zavalla1, M. Groza2, V. Buliga2, L. Matei2, A. Burger2,
K. C. Mandal1
1
University of South Carolina, USA; 2Fisk University, USA
R05-15 Spectrum Analysis for Different Concentration of CdTe
Grown by Low Pressure Bridgman Method
H. Choi1,2, M. Jeong1, H. Kim1, Y. Kim1, D. Kim1, W. Song1, J. Chai2, J. Ha1
1
Korea Atomic Energy Research Institute, Republic of Korea;
2
SungKyunKwan University, Republic of Korea
R05-16 Topographic Analysis of CdZnTe Crystals Surfaces Treated
by Different Chemo-Mechanical Techniques
A. Hossain, A. E. Bolotnikov, G. S. Camarda, Y. Cui, U. N. Roy, G. Yang, R. B.
James, Brookhaven National Laboratory, USA
Crystal Growth, Materials and Defects
Characterization
R05-17 Features of CZT Crystal Growth by the AHP Method under
High Pressure
V. D. Golyshev, S. V. Bykova, CrystalsNord LCC, Russia; M. P. Marchenko,
Numerisim Ltd, USA
R05-18 Measurement of Polarization Phenomena in CdTe
Radiation Detector by Optical Laser Pulses
T. Ito1,2, Y. Suzuki3, A. Koike4, Y. Neo1,2, H. Mimura1,2, T. Aoki1,3,4
1
Research Institute of Electronics, Shizuoka University, Japan; 2Graduate
School of Engineering, Shizuoka University, Japan; 3Graduate School of
Informatics, Shizuoka University, Japan; 4ANseeN Inc., Japan
R05-19 Resistivity Restoration of CdTe:Cl after Cd-Annealing Using
Two-Step Te-Annealing
L. Sedivy, E. Belas, R. Grill, J. Franc
Charles University in Prague, Faculty of Mathematics and Physics, Czech
republic
R05-20 Study of Resistivity Dependence on Frequency and Surface
Band Bending of Semiinsulating CdTe Using the Contactless
Resistivity Measurements
J. Zazvorka, J. Franc, R. Grill, Faculty of Mathematics and Physics, Czech
Republic; C. Disch, M. Fiederle, Albert-Ludwigs-Universitaet, Germany
R05-21 Low-Temperature Photoluminescence Measurements:
Application to Defect Analysis of CdZnTe and CdMnTe Crystals
G. Yang, A. E. Bolotnikov, Y. Cui, G. S. Camarda, A. Hossain, U. Roy, G. Gu,
R. B. James, Brookhaven National Laboratory, USA
R05-22 I-DLTS Study of CdZnTe and CdMgTe Detector Materials
after Low-Temperature Annealing
V. Dedic1, A. E. Bolotnikov2, G. S. Camarda2, T. Chan2, Y. Cui2, J. Franc1, R.
Grill1, A. Hossain2, U. Roy2, G. Yang2, R. B. James2
1
Charles University, Czech Republic; 2Brookhaven National Lab, USA
136 Tuesday - RTSD Poster Presentations Tuesday
R05-23 Characterization of Functional Layers of CdTe Crystals
Subjected to Different Surface Processing
D. V. Gnatyuk1,2, L. V. Poperenko1, I. V. Yurgelevych1, O. I. Dacenko1, T.
Aoki2
1
Taras Shevchenko National University of Kyiv, Ukraine; 2Shizuoka
University, Japan
R05-24 1” Class Single Crystal Growth and High Temperature
Properties of α-HgI2
S. Yeo, J. H. Ha, C. Park, H. S. Kim, Y. S. Kim
Korea Atomic Energy Research Institute, Republic of Korea
Strip, Pixel and Discrete Semiconductor
Detectors
R05-25 Application of Infrared Stimulation to Improve
Spectrometric Performance of CdZnTe Large Volume QuasiHemispherical Detectors
V. Ivanov, P. Dorogov, A. Loutchanski, S. Hinoverov, ZRF RITEC SIA, Latvia
R05-26 Quantitative Investigation of Room-Temperature
Breakdown Effects in Pixelated TlBr Detectors
W. Koehler, C. Thrall, Z. He, University of Michigan, United States; H. Kim,
L. Cirignano, K. Shah, Radiation Monitoring Devices, United States
R05-27 The Design of a Strengthened Electric Field Line Anode
CdZnTe Detector
J. Fu1,2, Y. Li1,2, L. Zhang3, L. Niu1,2, H. Jiang1,2, Y. Li1,2
1
Tsinghua University, China; 2Ministry of Education, China; 3Nuclear
Company Limited, China
R05-28 Testing of Virtual Frisch-Grid CdZnTe Detector for SubMillimeter Spatial Resolution
K. Lee1, A. Bolotnikov2, S. Bae1, U. Roy2, G. Camarda2, Y. Cui2, A. Hossain2,
G. Yang2, V. Dedic2, R. James2
1
Korea University, Korea; 2Brookhaven National Laboratory, USA
R05-29 Performance of 20x20x5 mm^3 Pixelated Cadmium
Zinc Telluride Semiconductor Detectors from Various New
Manufacturing Techniques
J. D. Mann, L. Tjayadi, Z. He, University of Michigan, U.S.A.
R05-30 Development of a CZT Spectroscopic 3D Imager Prototype
for Hard X Ray Astronomy
N. Auricchio1, E. Caroli1, A. Basili1, G. Benassi2, C. Budtz Jorgensen3, R. M.
Curado da Silva4, S. Del Sordo1, I. Kuvvetli3, L. Milano5, F. Moscatelli2, N.
Zambelli2, A. Zappettini2
1
INAF, Italy; 2CNR, Italy; 3Technical University of Denmark, Denmark;
4
Universidade de Coimbra, Portugal; 5Ferrara University, Italy
R05-31 Time-Resolved X-Ray Photon Detector
A. O. Lee, J. Rhee, G. M. Williams, Voxtel, Inc., USA
R05-32 Low Background Measurements Using 3-D PositionSensitive CdZnTe Detectors
Y. A. Boucher, Z. He, University of Michigan, USA
R05-33 Design of the Spiral Silicon Drift Detectors for Portable
X-Ray Fluorescence Analyzer
Y. S. Kim, H. S. Kim, M. Jeong, J. H. Ha,
Korea Atomic Energy Research Institute, Korea
R05-34 The Impact of Active Area Geometry and Electrophysical
Characteristics on X-Ray Sensitivity and Spatial Resolution of GaAs
Radiation Sensor
A. Lozinskaya, A. Zarubin, D. Mokeev, O. Tolbanov, A. Tyazhev, Tomsk
State University, Russia; A. Vorobiev, Institute of High Energy Physics, Russia
3D Photon Tracking Detectors and Image
Reconstruction Technology
R05-35 Multi-Scattering Imager for Photon Therapy
T. Lee, W. Lee, Korea University, South korea
Tuesday
Properties of Electrical Contacts and
Device Fabrication Technology
R05-36 Influence of Contact Type on the Electrical Parameters of
Cd(Zn)Te Detectors
P. M. Fochuk, V. M. Sklyarchuk, Chernivtsi National University, Ukraine; A.
V. Rybka, Kharkiv Institute of Physics & Technology, Ukraine; A. Bolotnikov,
R. James, Brookhaven National Laboratory, USA
Radiation Damage, Long-Term Stability and
Environmental Effects
R05-37 An Analysis of the Transient Radiation Damage Effects on
Electronics Using Irradiation Experiment and Model Simulation
N. Lee, S. Oh, S. Jeong, Y. Hwang, Korea Atomic Energy Research Institute,
Korea(South); H. Kang, W. Namkung, Pohang Accelerator Laboratory,
Korea(South); M. Cho, Pohang University of Science and Technology,
Korea(South); M. Lee, Dongnam Institution of Radiological & Medical
Sciences, Korea(South)
Scintillator/Semiconductor Array Hybrids
R05-38 Development of PIN Photodiode Radiation Detectors
for Low- and High-Energy Gamma-Ray Detection at Room
Temperature
H. S. Kim, M. Jeong, Y. S. Kim, J. H. Ha
Korea Atomic Energy Research Institute, Korea
Solid-state Neutron Detectors
R05-39 Hybrid Detectors of Neutrons Based on 3D Silicon Sensors
with Phenyl-Polysiloxanes Converter
G.-F. Dalla Betta1,2, M. Boscardin3, S. Carturan1, M. Cinausero1, G.
Collazuol1,4, M. Dalla Palma2,1, G. Giacomini3, F. Gramegna1, T. Marchi1, R.
Mendicino1,2, M. Povoli1,2, A. Quaranta2,1, S. Ronchin3, N. Zorzi3
1
INFN, Italy; 2University of Trento, Italy; 3Fondazione Bruno Kessler, Italy;
4
University of Padova, Italy
Detector/ASIC Hybridization, Interconnects
and Electronics
R05-40 Comparing of Electronic Pulse Shape Formation in
Transient Current and Transient Charge Detection Approach Applied to CdTe and (CdZn)Te X-Ray and Gamma-Ray Detectors
P. Praus, E. Belas, R. Grill, S. Uxa, J. Franc
Charles University in Prague, Czech Republic
R05-41 First Prototype of a Photon Counting ASIC for CdZnTeBased SPECT Imaging
Y. Cui1, Y. Seo2, Z. Deng1,3, P. O’Connor1, S. Bagchi2, G. Camarda1, A.
Hossain1, G. Yang1, U. Roy1, R. B. James1
1
Brookhaven National Laboratory, USA; 2University of California at San
Francisco, USA; 3Tsinghua University, China
R05-42 Development of Front-End Measurement System for
Portable X-Ray Fluorescence Analyzer
W.-I. Song, Y. S. Kim, H. S. Kim, M. Jeong, J. H. Ha
Korea Atomic Energy Research Institute, south korea
Spectrometer Systems for Homeland
Security, Nuclear Inspections Safeguards
and Portal Monitoring
R05-43 Radioactive Source Distance Estimation Using a Pair of
Coded Aperture Gamma Cameras
C. Papadimitropoulos1, I. Kaissas2, C. Potiriadis2, C. P. Lambropoulos1
138 Tuesday - RTSD Poster Presentations Technological Educational Institute of Chalkida, Greece; 2Greek Atomic
Energy Commission, Greece
R05-44 Ultra-Sensitive Isotope Identification in Background
Dominated, Low Activity Samples Using Compact, Contemporary
CZT Derived γ-Ray Detector Technology
X. Wang, B. J. Cantwell, I. Radley, K. Powell
Kromek Ltd., U.K.
R05-45 Development of a Large-Size PVT Scintillation Detector for
Radiation Portal Monitor
M. J. Kim1, C. H. Lee2, Y. K. Kim2, S. Y. Kim1
1
Neosiskorea Co., Ltd., Korea; 2Hanyang University, Korea
Tuesday
1
Imaging Systems for Medical, Astrophysics,
Non-Destructive Testing and Cargo
Monitoring Applications
R05-46 High-Energy X-Ray: Effect of the Various Filters on the
X-Ray Image Quality
H. S. Kim, J. H. Kim, Y. G. Cho, Y. G. Hwang, C. H. Lee
Wonkwang University, Korea
R05-47 High-Contrast K-Edge CT by CdTe Photon Counting
Detector
K. Ashitomi, Y. Imura, H. Mimura, T. Aoki
Shizuoka University, Japan
R05-48 Characterization of CdTe Pixel Detectors for the
Spectrometer Telescope Imaging X-Rays (STIX)
M. Bednarzik1, R. Resanovic1, O. Grimm2, V. Commichau2, O. Limousin3, A.
Meuris3, G. Hurford4,5, N. Arnold4, S. Krucker4,5
1
Paul Scherrer Institute, Switzerland; 2ETHZ, Switzerland; 3CEA, France;
4
University of Applied Sciences for Northwestern Switzerland, Switzerland;
5
University of California, USA
R05-49 Volume-Reconstruction Algorithms for Medipix-Micro-CTs
M. P. Pichotka1, S. Procz1, J. Luebke2, M. Mix2, M. Fiederle1
1
Albert-Ludwigs-Universitaet Freiburg, Freiburger
Materialforschungszentrum FMF, Germany; 2Nuklearmedizinische Klinik of
Universitaets-Klinikum, Germany
R05-50 A Balloon-Borne 3D CZT Spectrometer for Hard X-Ray
Polarimetry
E. Caroli1, J. M. Alvarez2, N. Auricchio1, C. Budtz-Jrgensen3, R. M. Curado
da Silva4, S. Del Sordo5, P. Ferrando6, J. L. Galvz2, M. Hernanz2, J. Isern2, I.
Kuvvetli3, P. Laurent6, O. Limousin6, J. M. Maia4, A. Meuris6, N. Produit7, J.
B. Stephen1, A. Zappettini8
1
INAF/IASF-Bologna, Italy; 2IEEC-CSIC, Spain; 3DTU Space, Denmark; 4LIPCoimbra, Portugal; 5INAF/IASF-Palermo, Italy; 6CEA, France; 7University of
Geneva, Switzerland; 8IMEM/CNR, Italy
R05-51 Feasibility Test for Radiation Imaging by Using CsI(Tl)/PIN
Photodiode Hybrid Radiation Detectors
J. H. Ha, H. S. Kim, M. Jeong, Y. S. Kim, Korea Atomic Energy Research
Institute, Korea; W. K. Na, Korea Institute of Radiological Medical Sciences,
Korea
R05-52 Breaking the Speed Barrier in Real-Time Applications
to Make Advances in Particle Detection, Medical Imaging and
Astrophysics
D. B. Crosetto
Crosetto Foundation for the Reduction of Premature Cancer Deaths, USA
R06 RTSD Poster 2
Notes
Tuesday
140 Tuesday
Notes
141
Notes
Tuesday
142 Tuesday
Notes
143
07:00
MIC RC1
07:30
08:00
Wednesday, 30 October
GBR 102-104
08:30
09:00
09:30
M01: MIC Opening and
Plenary I
10:00
10:30
11:00
11:30
12:00
12:30
M02: MIC Awards and Plenary II
13:00
13:30
14:00
14:30
15:00
15:30
M03: PET Instrumentation
16:00
16:30
17:00
17:30
18:00
M04: Image Reconstruction I
18:30
N23: Neutron Detection II :
Systems
GBR 101
N19: Instrumentation for BioMedical Research
N24: Photodetectors II
N29: Simulation
GBR 101-102
N20: Plastic and Liquid
Scintillators
N25: Instrumentation for
Homeland Security II: Imaging
and Algorithms
N28: Environmental Radiation
Monitors and Dosimeters
N27: Accelerator Technology
GBR 105
N21: Digitalization and Signal
Processing
N30: Synchrotron Radiation and
FEL Instrumentation I
GBR 104
ASEM 203 A&B
N22: New Concepts in SolidState Detectors I
NSS RC1: Geant4
Physics Validation
ASEM 208 A&B
N26: Nuclear Instrumentation :
New Detection and Electronics
Concepts
R10: RTSD Scientist Award and
CdZnTe III
NPO2: NSS Poster II
J4: NSS-RTSD Joint Session
R09: CdZnTe II
Hall E1&E2
R08: RTSD Poster II
19:00
19:30
Conference
Reception
Wednesday
Hall B2
Hall E5
Hall B2
GBR 103-105
144 144
Wednesday
Wednesday - NSS Oral
Presentations
N19 Instrumentation for Bio-Medical Research
Wednesday, Oct. 30 08:00-10:00 GBR 101
Session Chairs: Youngho Seo, University of California, San Francisco,
United States
Anatoly Rosenfeld, University of Wollongong,
Australia
N19-1 (08:00) Development of a Clinical Head Scanner for Proton
CT
R. W. Schulte, V. Bashkirov, R. F. Hurley, Loma Linda University, USA; R.
P. Johnson, S. Macafee, T. Plautz, H. F.-W. Sadrozinski, A. Zatserklaniy,
UC Santa Cruz, USA; B. Schultze, M. Witt, K. E. Schubert, California State
University San Bernardino, USA; V. Giacometti, S. Guatelli, A. Rosenfeld,
Universty of Wollongong, Australia
N19-2 (08:15) A Large Area Apparatus for Proton Computed
Tomography
M. Bruzzi1, C. Civinini2, M. Bucciolini3, C. Talamonti3, V. Sipala4, M.
Carpinelli4, G. Cuttone5, M. Scaringella1, D. Lo Presti6, N. Randazzo7, M.
Brianzi2, S. Pallotta3, C. Pugliatti6, F. Romano5, C. Stancampiano5, M.
Zani3, M. Tesi1, E. Vanzi8
1
Florence Physics, Italy; 2INFN FI, Italy; 3Florence Medical, Italy; 4INFN CA,
Italy; 5INFN LNS, Italy; 6Dip CT, Italy; 7INFN CT, Italy; 8AOC, Italy
N19-3 (08:30) First Results of Intensity Modulated Radiotherapy
Dose Mapping with a Monolithic Bidimensional Dosimeter Made
with Polycrystalline Diamond
M. Bruzzi1,2, M. Bucciolini3,2, A. de Sio1,2, E. Pace1,2, M. Scaringella4, C.
Talamonti3,2, L. Tozzetti1, M. Zani3,2
1
Florence Physics, Italy; 2INFN FI, Italy; 3Florence Medical, Italy; 4engineering
dept, Italy
N19-4 (08:45) BrachyView: Tomographic Reconstruction
Using Timepix Detectors in Post-Implant Dosimetry Checks for
Permanent Prostate Brachytherapy Implants
K. J. Loo1, M. Safavi-Naeini1, M. Petasecca1, Z. Han1, M. Lerch1, J. Jakubek2,
J. Zemlicka2, S. Pospisil2, J. A. Bucci3, M. Zaider4, A. B. Rosenfeld1
1
Centre for Medical Radiation Physics, Australia; 2Institute of Experimental
and Applied Physics, Czech Republic; 3St George Cancer Care Centre,
Australia; 4Memorial Sloan-Kettering Cancer Center, USA
N19-5 (09:00) Development of Multilayered Dose-Verification
Detectors in Particle Therapy
K. S. Lee, B. Hong, B. Mulilo, S. Lee, S. K. Park
N19-6 (09:15) A Radioisotope Based Methodology for PlantFungal Interactions in the Rhizosphere
A. G. Weisenberger1, G. Bonito2, J. E. McKisson1, A. P. Gryganskyi2, C. D.
Reid2, M. F. Smith3, G. Vaidyanathan2, B. L. Welch4
1
Thomas Jefferson National Accelerator Facility, USA; 2Duke University, USA;
3
University of Maryland, USA; 4Dilon Diagnostics Inc., USA
N19-7 (09:30) Design Studies of a CZT-Based Detector Combined
with a Pixel-Geometry-Matching Collimator for SPECT Imaging
F. Weng1, S. Bagchi2, Q. Huang1, Y. Seo2
1
Shanghai Jiaotong University, China; 2University of California, USA
N19-8 (09:45) An Edge-Preserving Total Variation Denoise Method
for DECT Image
L. Shen1,2, Y. Xing1,2
1
China; 2Tsinghua University, China
Wednesday - NSS Oral Presentations 145
Wednesday
N20 Plastic and Liquid Scintillators
Wednesday, Oct. 30 0
8:00-10:00 GBR 105
Session Chairs: Rainer W. Novotny, 2nd Physics Institute, University
Giessen, Germany
Kanai S. Shah, RMD, United States
N20-1 (08:00) The Effect of Detector Geometry on EJ-309 Pulse
Shape Discrimination Performance
M. Ellis, AWE, UK
N20-2 (08:15) Comparison of Different Plastic Scintillators
with Pulse Shape Discrimination (PSD) Capabilities Based on
Polystyrene (PS)
J. Iwanowska, L. Swiderski, M. Moszynski, P. Sibczynski, T. Krakowski,
National Centre for Nuclear Research, Poland; N. Zaitseva, I. A. Pawelczak,
P. Martinez, Lawrence Livermore National Laboratory, United States;
A. Gektin, P. N. Zhmurin, Institute for Scintillating Materials, National
Academy of Sciences of Ukraine, Ukraine
N20-3 (08:30) Advanced Plastic Scintillators for Fast Neutron
Spectroscopy and Pulse Shape Discrimination
U. Shirwadkar, E. Van Loef, G. Markosyan, J. Glodo, A. Gueorguiev, K.
Shah, Radiation Monitoring Devices, USA; S. Pozzi, S. Clarke, M. Bourne,
University of Michigan, USA
N20-4 (08:45) Study on Pulse Shape Discrimination of High Flash
Point Liquid Scintillators
J. Lee, Y. Kim, J. Kim, K. Ma, Sejong University, Korea
N20-5 (09:00) Non-Proportionality and Energy Resolution of Xe
Gas Scintillator in Gamma-Rays Spectrometry
L. Swiderski1, R. Chandra2, A. Curioni3, G. Davatz2, H. Friederich2, U.
Gendotti2, L. Goeltl2, J. Iwanowska1, M. Moszynski1, D. Murer2, A.
Gendotti3, F. Resnati3, A. Rubbia3
1
National Centre for Nuclear Research, Poland; 2ARKTIS Radiation Detectors
Ltd., Switzerland; 3ETH Zurich, Institute for Particle Physics, Switzerland
N20-6 (09:15) Scintillation Yield and Scintillation Time
Dependence in Liquid Argon with Different Purity
Q. Chen1,2, J. Cheng1,2, Q. Yue1,2, Y. Du2, W. Liu1,2
1
N20-7 (09:30) Noble Gas Scintillation Detectors with Solid State
Light Readout
U. Gendotti1, M. Caccia2, R. Chandra1, V. Chmill1, G. Davatz1, H.
Friederich1, L. Goeltl1, A. Martemiyanov2, D. Murer1, M. Nyiroe1, R.
Santoro2
1
Arktis Radiation Detectors Ltd, Switzerland; 2University of Insubria, Italy
N20-8 (09:45) Development of a High Pressure Xe Gas Scintillator
Gamma Rays Spectrometer Based on Primary Light Scintillation
U. Gendotti1, R. Chandra1, A. Curioni2, G. Davatz1, H. Friederich1, A.
Gendotti2, L. Goeltl1, J. Iwanowska3, M. Moszynski3, D. Murer1, F. Resnati2,
A. Rubbia2, L. Swiderski3
1
Arktis Radiation Detectors Ltd, Switzerland; 2ETH Zurich, Switzerland;
3
National Centre for Nuclear Research, Poland
N21 Digitalization and Signal Processing
8:00-10:00 ASEM 203 A&B
Session Chairs: Stefan Ritt, Paul Scherrer Institute, Switzerland
Martin L. Purschke, Brookhaven National Lab, United
States
N21-1 (08:00, invited) The 3Gs of FRONT-END ACQUISITION
ASICS: a Review of Switched Capacitor Array Transient Waveform
Recorders for Giga-Sample/second, Giga-Hertz Bandwidth, and
Giga-Scale Acquisition
G. Varner, Univ. of Hawaii, USA
146 Wednesday - NSS Oral Presentations Wednesday
N21-2 (08:30) Novel Calibration Method for DRS4-Chip Enables
3ps Time Resolution Measurements
D. A. Stricker-Shaver1, S. Ritt2, B. J. Pichler1
1
University of Tuebingen, Germany; 2Paul Scherrer Institute, Switzerland
N21-3 (08:45) Artifact Generation and Detection in Digital
Coincidence Timing
W. W. Moses, Lawrence Berkeley National Laboratory, USA
N21-4 (09:00) The Tilecal Energy Reconstruction for Collision Data
Using the Matched Filter
B. S. M. Peralva, Federal University of Juiz de Fora, Brazil
N21-5 (09:15) A Dynamic System Identification Algorithm for RealTime Pulse Pile-up Recovery
P. A. B. Scoullar, C. C. McLean
Southern Innovation, Australia
N21-6 (09:30) Development of the Readout System for CTA Using
the DRS4 Waveform Digitizing Chip
R. Paoletti, University of Siena and INFN Pisa, Italy; H. Kubo, Kyoto
University, Japan
N21-7 (09:45) An FPGA-Based 64-Channel DAQ System Using
Linear Time-over-Threshold Scheme for a Continuous Crystal PET
Detector
W. Yonggang, Z. Wensong, L. Chong, C. Xinyi, L. Deng
N22 New Concepts in Solid-State Detectors I
Wednesday, Oct. 30 08:00-10:00 ASEM 208 A&B
Session Chairs: Marc Winter, IPHC, France
Susanne Kuehn, University of Freiburg, Germany
N22-1 (08:00) Radiation Hardness and Detector Performance of
new 180nm CMOS MAPS Prototype Test Structures Developed for
the Upgrade of the ALICE Inner Tracking System
H. Hillemanns1, C. Cavicchioli1, A. Collu2, P. Giubilato3, T. Kugathasan1,
M. Mager1, C. Marin Tobon1, P. Martinengo1, S. Mattiazzo3, L. Musa1,
C. Puggioni2, F. Reidt1, P. Riedler1, S. Siddhanta2, W. Snoeys1, J. van
Hoorne1, A. Junique1, C. Bedda4, I. Aimo4, P. La Rocca5, G. Pappalardo5, G.
Santagati5
1
CERN, Switzerland; 2INFN Cagliari, Italy; 3INFN Padova, Italy; 4INFN Torino,
Italy; 5INFN Catania, Italy
N22-2 (08:15) Explorer0: a Monolithic Pixel Sensor in a 180 nm
CMOS Process with an 18 μm Thick High Resistivity Epitaxial Layer
T. Kugathasan1, C. Cavicchioli1, P. L. Chalmet2, P. Giubilato3, H.
Hillemanns1, A. Junique1, M. Mager1, C. A. Marin Tobon1, P. Martinengo1,
S. Mattiazzo3, H. Mugnier2, L. Musa1, D. Pantano3, J. Rousset2, F. Reidt1, P.
Riedler1, W. Snoeys1, J. W. van Hoorne1, P. Yang4
1
CERN, Switzerland; 2MIND-MicroTechnologies, France; 3INFN and
University of Padova, Italy; 4Central China Normal university, China
N22-3 (08:30) HV-CMOS Monolithic Pixel Detectors - the
Development for ATLAS Upgrade
I. Peric, University of Heidelberg, Germany
On behalf of the HVCMOS Collaboration
N22-4 (08:45) New Development for Enhanced High Count-Rate
Performance of Silicon Drift Detector
S. Barkan, L. Feng, V. D. Saveliev, M. Takahashi, Y.-N. Wang, M. Uehara, E.
V. Damron
Hitachi High-Technologies Science America, Inc., USA
N22-5 (09:00) Energy Estimation Technique Utilizing Timing
Information for TOF-PET Application
S. Mandai, E. Charbon
Wednesday
N22-6 (09:15) Development of Garnet Crystals for the Cherenkov
PET
S. Kurosawa1, V. V. Kochurikhin2, A. Yamaji1, Y. Yokota1, K. Kamada1, A.
Yoshikawa1,3
1
Tohoku University, Japan; 2General Physics Institute, Russia; 3C&A, Japan
N22-7 (09:30) Development of Low Temperature Detectors in High
Resolution Alpha- and Q-Spectroscopies
W. S. Yoon1,2, G.-B. Kim1, H. J. Lee1,2, J. Y. Lee1, J. H. Lee1, M. K. Lee1, Y.-H.
Kim1,2
1
Korea Research Institute of Standards and Science, Rep. of Korea;
2
University of Science and Technology, Rep. of Korea
N23 Neutron Detection II : Systems
0:30-12:30 GBR 101
Session Chairs: Richard Kouzes, Pacific Northwest National
Ralf Engels, Forschungszentrum Juelich GmbH,
Germany
N23-1 (10:30, invited) New Developments for Wavelength-Shifting
Fiber Neutron Detectors at SNS
C.-L. Wang, K. W. Herwig, R. A. Riedel, Oak Ridge National Laboratory, USA
N23-2 (10:45) A Position-Sensitive Scintillator Detector for Fast
Neutron Imaging
F. Shi, J. Lu, X. Cai, L. Sun
Institute of high energy physics, Chinese academy of sciences, China
N23-3 (11:00) An Alternative Small Angle Neutron Scattering
Detector
K. Kanaki1, J. Birch2, R. Hall-Wilton1, C. Hoglund1,2, L. Hultman2, A.
Jackson1, O. Kirstein1, T. Kittelmann1, S. Kolya1, F. Piscitelli3
1
European Spallation Source, Sweden; 2University of Linkoping, Sweden;
3
Institut Laue-Langevin, France
N23-4 (11:15) GAGG Scintillator Coupled to a CMOS Camera for
Alpha-Rays and Neutron Imaging
S. Kurosawa1, Y. Shoji1, K. Kamada1, Y. Yokota1, A. Yoshikawa1,2
1
N23-5 (11:30) Inorganic Scintillation Detector Development for
J-PARC Spallation Neutron Source
T. Fujiwara1, H. Takahashi1, T. Yanagida2, Y. Fujimoto2, K. Fukuta3, N.
Kawaguchi3, N. L. Yamada4, M. Uesaka1
1
The University of Tokyo, Japan; 2Kyushu Technology University, Japan;
3
Tokuyama Corporation, Japan; 4High Energy Accelerator Research
Organization, Japan
N23-6 (11:45) Absorption in 1 Conversion Layer Detector (A1-CLD):
Status of the Development
R. Kampmann1,2,3, M. Stoermer1,2, G. Nowak1,2, T. Kuehl3, E. Praetzel3,
C. Horstmann1,2, M. Haese-Seiller1,2, J.-F. Moulin1,2, D. Hoeche1, R. HallWilton4, M. Mueller1,2, A. Schreyer1,2
1
Helmholtz-Zentrum Geesthacht, Germany; 2ESS Design Update
Programme, Germany; 3DENEX - Detectors for Neutrons - GmbH, Germany;
4
European Spallation Source ESS AB, Sweden
N23-7 (12:00) Test of Several Multi-Grid Prototypes Using BF3 Gas
or 10B4C Thin Films as Neutron Convertors
J. Birch1, J.-C. Buffet2, J.-F. Clergeau2, J. Correa2, S. Cuccaro2, S. Desai3,
M. Ferraton2, B. Guerard2, R. Hall Wilton4, C. Hoglund4, A. Khaplanov4, F.
Piscitelli2, P. Van Esch2
1
LiU, Sweden; 2ILL, France; 3BARC, India; 4ESS, Sweden
N23-8 (12:15) Simulation and Test of Position Sensitive Boron
Coated Straw Tube
C. Chen1,2, H. Gong1,2, G. Y. Yang1,2, N. S. Zhu1,2,3, C. T. Huang1,2, W. X.
Wang1,2, J. Y. Li1,2
1
Tsinghua University, P.R.China; 2Key Laboratory of Radiation Physics
& Detection Technology (Tsinghua University), Ministry of Education,
P.R.China; 3SUN YAT-SEN University, P.R.China
N24 Photodetectors II
Session Chairs: Sergey Barsuk, IN2P3 Orsay, France
Ikuo Kanno, Department of Nuclear Engineering,
N24-1 (10:30) A 24-Element Silicon PIN Diode Detector for High
Resolution Radioxenon Measurements using Simultaneous X-ray
and Electron Spectroscopy.
C. E. Cox1, W. Hennig1, A. C. Huber2, W. K. Warburton1, P. M. Grudberg1, S.
J. Asztalos1, H. Tan1, S. Biegalski3
1
XIA LLC, USA; 2Amptek Inc., USA; 3Univ. Texas at Austin, USA
N24-2 (10:45) The Performance Test of the Large MCP-PMT for the
Daya Bay II
S. Qian
The institute of the High Energy Physics, Chinese Academy of Sciences,
China
N24-3 (11:00) Progress in the Development of Amorphous-SiliconBased Microchannel Plates
A. Franco, J. Geissbuehler, N. Wyrsch, C. Ballif
Ecole Polytechnique Fdrale de Lausanne (EPFL), Switzerland
N24-4 (11:15) Time-of-propagation(TOP) counter tested in LEPS at
SPring-8
C. J. Yoon, Osaka University, JAPAN
On behalf of the TOPxLEPS Collaboration
N24-5 (11:30) Development and Measurement of New LargeAperture Photodetectors for Hyper-Kamiokande
Y. Nishimura1, Y. Hayato1, S. Hirota2, I. Kametani1, M. Nakahata1, T.
Nakaya2, S. Nakayama1, M. Shiozawa1, Y. Suda3, H. Tanaka1, K. Tateishi2, M.
Yokoyama3
1
Institute for Cosmic Ray Research, The University of Tokyo, Japan; 2The
Kyoto University, Japan; 3The University of Tokyo, Japan
N24-6 (11:45) Timing Resolution Performance Comparison of
Different SiPMs
S. Dolinsky, G. Fu, I. Adrian, GE Global Research, USA
N24-7 (12:00) Performance of UV-Sensitive MPPC for Liquid Xenon
Detector in MEG Experiment
D. Kaneko, The University of Tokyo, Japan
N24-8 (12:15) Performance of a Scintillating Fiber Detector
Equipped with NUV-Sensitive SiPM in a Beam Test with Relativistic
Ions
P. S. Marrocchesi, P. Maestro, G. B. Bigongiari, M. G. Bagliesi, A. Sulaj, S.
Bonechi, F. Pacciani, P. Brogi
University of Siena and INFN-Pisa, Italy
N25 Instrumentation for Homeland Security II:
Imaging and Algorithms
Session Chairs: Philip N. Martin, AWE, United Kingdom
Klaus P. Ziock, Oak Ridge National Laboratory, United
States
N25-1 (10:30) Dual Hybrid Gamma-Ray and Fast Neutron Imaging
for Mobile, Standoff Detection of Nuclear Threat Sources
J. P. Hayward1,2, J. E. Sparger1, R. J. Newby2, B. Ayaz-Maierhafer1, A. S.
Iyengar1, L. Fabris2, M. A. Blackston2, P. A. Hausladen2, K. P. Ziock2
1
N25-2 (10:45) Dual Energy CT Reconstruction Method with
Wednesday
Incomplete High Energy Data
L. Shen1,2, Y. Xing1,2, X. Jin2
1
Ministry of Education, China; 2Tsinghua University, China
N25-3 (11:00) An Automated Isotope Identification Algorithm
Using Bayesian Statistics
J. Stinnett, C. J. Sullivan, University of Illinois, United States
N25-4 (11:15) Real-Time Fusion of Radiation Images with 3D
Sensor Data for Volumetric Radiation Imaging
R. Barnowski1, A. Haefner1, K. Vetter1,2, L. Mihailescu2
1
UCB, USA; 2LBL, USA
N25-5 (11:30) A Portable Si/CdTe Compton Camera for Visualizing
Radioactive Substances
S. Takeda, Y. Ichinohe, T. Takahashi, S. Watanabe, ISAS/JAXA, Japan;
H. Tajima, Nagoya University, Japan; K. Genba, H. Ikebuchi, Y. Kuroda,
Mitsubishi Heavy Industry, Ltd., Japan
N25-6 (11:45) An Improved Algorithm for Prompt Gamma Neutron
Activation (PGNAA) Identification of Chemical Warfare Agents
K. M. Krebs, A. J. Caffrey, A. E. Egger, E. H. Seabury, C. D. Van Siclen, C. J.
Wharton
Idaho National Laboratory, U.S.A.
N25-7 (12:00) Gamma-Ray Multilayer Mirrors for Homeland
Security Applications
M.-A. Descalle, N. F. Brejnholt, T. A. Decker, R. M. Hill, M. FernandezPerea, M. J. Pivovaroff, R. Soufli
Lawrence Livermore Nat. Lab., USA
N25-8 (12:15) Effects of Background on Gamma-Ray Detection for
Mobile Spectroscopy and Imaging Systems
T. J. Aucott1, M. S. Bandstra2, V. Negut2, J. C. Curtis1, D. H. Chivers2, K.
Vetter1,2
1
University of California, Berkeley, US; 2Lawrence Berkeley National Lab, US
N26 Nuclear Instrumentation II : New
Detection and Electronics Concepts
0:30-12:30 ASEM 208 A&B
Session Chairs: Paul Colas, CEA/IRFU, France
Keisuke Maehata, Kyushu University, Japan
N26-1 (10:30) Development of Low Temperature Detectors for a
Neutrinoless Double Beta Decay Experiment
G.-B. Kim1,2, 1Seoul National University, Rep. of Korea; 2Korea Research
Institute of Standards and Science, Rep. of Korea
On behalf of the AMoRE Collaboration
N26-2 (10:45) Development of Microresonator Detectors for
Neutrino Physics in Milano
M. Faverzani1, P. K. Day2, E. Ferri1, A. Giachero1, C. Giordano3, B.
Marghesin3, A. Nucciotti1
1
University of Milano-Bicocca and INFN Milano-Bicocca, Italy; 2JPL, USA;
3
N26-3 (11:00) Novel Guard Ring System Design and
Implementation for Punch-Through Protection Toward the
Detector Dicing Edge with Improved Radiation Tolerance and
Reduced Dead Area
Z. Li, W. Chen, E. Kistenev, Brookhaven National Lab, USA; Y. Kwon,
D. G. Sue, Younsey University, Korea; K. Park, J. Park, Electronics and
Telecommunications Research Institute, Korea; J. Lajoie, Iowa State
University, USA
N26-4 (11:15) Investigation of the Impact of Interstrip Incidence
on the Signal Shape in Double Sided Silicon Strip Detectors for
Particle Identification
A. Castoldi1,2, C. Guazzoni1,2, T. Parsani1,2, F. Riccio1,2, P. Zambon1,2, C.
Boiano2, L. Carraresi3,2, F. Taccetti2, L. Acosta2,4, G. Cardella2, G. Verde2, A.
Trifiro’5,2
1
Politecnico di Milano, Italy; 2INFN, Italy; 3Univ. degli Studi di Firenze, Italy;
150 Wednesday - NSS Oral Presentations Universidad de Huelva, Italy; 5Universita’ degli Studi di Messina, Italy
N26-5 (11:30) An SiPM Based Readout for the sPHENIX
Calorimeters
E. J. Mannel, Brookhaven National Laboratory, USA
On behalf of the The PHENIX Collaboration
N26-6 (11:45) Studies of 10 Picosecond Timing Detectors for
Charged Particle Identification
M. Chiu, Brookhaven National Laboratory, USA
N26-7 (12:00) Time of Flight Detector Development for a Multiple
Arm Double Fission Fragment Spectrometer
E. M. Dughie, A. A. Hecht, University of New Mexico, United States; K.
Meierbachtol, C. Arnold, Los Alamos Natoinal Laboratory, United States
N26-8 (12:15) Development of Next-Generation Nuclear Physics
Integrated Readout Electronics for GRETINA
S. Zimmermann, N. Abgrall, V. Moeller-Chan, M. Cromaz, C. Grace, A.
Macchiavelli
Wednesday
4
N27 Accelerator Technology
Session Chairs: Tsuyoshi Suwada, KEK, Japan
Tae Joo Shin, Pohang Accelerator Laboratory (PAL),
South Korea
N27-1 (14:00) Development of New Beam Monitor System Using
Conductive Mesh
S. Ito, H. Matsuzaki, M. Yasumoto, A. Morita
The Uinversity of Tokyo, Japan
N27-2 (14:15) SEM Design and Construction for Beam Profile
Monitoring of ES_200
E. Ebrahimibasabi, S. A. H. Feghhi, A. Hosseini, M. Nikbakht
Shahid Beheshti Unversity, Iran
N27-3 (14:30) Numerical Design Analysis of Energy-Spread
Monitor Using Multi-Stripline Electrodes
T. Suwada, KEK, High Energy Accelerator Research Organization, Japan
N27-4 (14:45) High Position Resolution Beam Position Monitor
Readout Circuitry for the KEKB Injector Linac towards the
SuperKEKB
R. Ichimiya, T. Suwada, KEK, Japan
N27-5 (15:00) Multi-purpose 9A Ultra-Small Angle X-Ray
Scattering Beamline of PAL and Its Scientific Opportunities
T. J. Shin, K.-S. Lee, K. S. Jin, J. Kim, K.-W. Kim
Pohang Accelerator Laboratory (PAL), Republic of Korea
N27-6 (15:15) High-Energy Electron-Beam Tomography
J. Bendahan, D. Strellis, Rapiscan Laboratories, US; D. Angal-Kalinin, J. K.
Jones, K. B. Marinov, Science and Technology Facilities Council, UK
N27-7 (15:30) Neutronic Behavior Evaluation of an Accelerator
Driven Subcritical Reactor Based on Th-U Fuel Cycle Using
Computational Method
S. A. H. Feghhi1, Z. Gholamzadeh1, C. Tenreiro2,3
1
Shahid Beheshti University, Iran; 2Talca University, Chile; 3SungKyunKwan
University, Korea
N27-8 (15:45) Design and Testing Methodology for New Radiation
Tolerant Power Converter Controls for the Large Hadron Collider
S. Uznanski1, B. Todd1, A. Dinius1, Q. King1, M. Brugger2, Y. Thurel1
1
CERN, Switrzerland; 2CERN, Switzerland
Wednesday
N28 Environmental Radiation Monitors and
Dosimeters
4:00-16:00 GBR 105
Session Chairs: Chan Hyeong Kim, Hanyang University, Department
of Nuclear Engineering, South Korea
Bo Sun Kang, Konyang Univeristy, South Korea
N28-1 (14:00) On the Possibility to Detect Some Radioactive Noble
Gases by Cherenkov Counting of Polycarbonates
K. K. Mitev, Sofia University, Bulgaria
N28-2 (14:15) First Application to Environmental Gamma-Ray
Imaging with an Electron Tracking Compton Camera
D. Tomono, T. Tanimori, H. Kubo, A. Takada, T. Mizumoto, Y. Mizumura, T.
Sawano, Y. Matsuoka, S. Komura, S. Nakamura, Kyoto University, Japan;
N. Bando, Y. Nakanishi, K. Tominaga, H. Ito, Y. Furukawa, E. Matsumoto,
N. Matsumoto, M. Taniwaki, Horiba Ltd, Japan; A. Nabetani, CANON INC,
Japan
N28-3 (14:30) Development of a Si-PM Based Alpha Camera for
Plutonium Detection in Nuclear Fuel Facilities
Y. Morishita, S. Yamamoto, Nagoya University Graduate School of
Medicine, Japan; K. Izaki, Japan Atomic Energy Agency, Japan; J. H.
Kaneko, K. Toui, Y. Tsubota, Hokkaido University Graduate School of
Engineering, Japan
N28-4 (14:45) Development of Gamma Camera to Visualize
Distribution of Environmental Radioactivity
I. Takahashi, T. Ishitsu, Y. Ueno, T. Tadokoro, K. Okada, Y. Nagumo, Hitachi,
Ltd., Japan; K. Nagashima, N. Yamada, Hitachi Consumer Electronics Co.,
Ltd., Japan
N28-5 (15:00) Gamma Radiation Induced Effects on Electrical
Properties of Pure TeO2 and (TeO2)0.8 (In2O3)0.2 Thin Films
A. K. Gourishetty, M. Mohil, M. Dhibar
Indian Institute of Technology Roorkee, India
N28-6 (15:15) Development of Iterative Image Reconstruction
Method for Environmental Radioactive Distribution with
Germanium Semiconductor Compton Camera
T. Ida1,2, S. Motomura2, M. Hiromura2,3, S. Enomoto1,2
1
Okayama University, Japan; 2RIKEN Center for Life Science Technologies,
Japan; 3Daiichi University of Pharmacy, Japan
N28-7 (15:30) Development of a New Space Dosimeter: PS-TEPC
(Position Sensitive Tissue Equivalent Proportional Chamber)
S. Sasaki, Y. Kishimoto, K. Saito, K. Takahashi, High Energy Accelerator
Research Organization, JAPAN; T. Doke, Waseda Univ., JAPAN; K. Miuchi,
Kobe Univ., JAPAN; T. Fuse, A. Nagamatsu, H. Matsumoto, JAXA, JAPAN; K.
Terasawa, Keio Univ., JAPAN
N28-8 (15:45) 3D Microdosimeter for Dosimetry in Avionic and
Space Applications
L. Tran1, S. Guatelli1, M. Lerch1, M. Petasecca1, D. Prokopovich2, M.
Reinhard2, A. Kok3, C. Davia4, J. Ziegler5, M. Zaider6, A. Rozenfeld1
1
Technology Organisation, Australia; 3SINTEF Company, Norway; 4University
of Manchester, UK; 5United States Naval Academy, USA; 6Memorial SloanKettering Cancer Centre, USA
N29 Simulation
6:30-18:30 ASEM 203 A&B
Session Chairs: Maria Grazia Pia, INFN Genova, Italy
Steffen Hauf, European X-ray Free Electron Laser
Facility GmbH, Germany
N29-1 (16:30, invited) Current Status of EGS5 Code
Y. Namito, H. Hirayama, High Energy Accelerator Research Organization
(KEK), Japan; A. F. Bielajew, S. J. Wilderman, Univ. Michigan, USA; W. R.
Nelson, Stanford Linear Accelerator Center, USA
N29-2 (17:00, invited) Latest Improvements in the EGSnrc Code
System for Monte Carlo Simulation of Radiation Transport
F. Tessier, National Research Council Canada, Canada
N29-3 (17:30) New developments in Geant4 Hadronic Phyics
G. Folger, CERN, Switzerland
On behalf of the Geant4 Hadronic Working Group
N29-4 (17:45) Physics Methods for the Simulation of
Photoionization
M. C. Han1, H. S. Kim1, M. Batic2, G. Hoff3, C. H. Kim1, M. G. Pia4, P. Saracco4
1
Hanyang University, Korea; 2Sinergise, Slovenia; 3PUCRS, Brazil; 4INFN
Genova, Italy
N29-5 (18:00) Validation of Compton Scattering Monte Carlo
Simulation Models
G. Weidenspointner1,2, M. Batic3, G. Hoff4, P. Saracco5, M. G. Pia5
1
HLL MPG, Germany; 2MPE, Germany; 3Sinergise, Slovenia; 4Pontificia
Universidade Catolica do Rio Grande do Sul, Brazil; 5INFN Sezione di
Genova, Italy
N29-6 (18:15) Negative Improvements, Relative Validity and
Elusive Goodness
M. G. Pia1, M. Batic2, G. Hoff3, P. Saracco1, G. Weidenspointner4
1
INFN Genova, Italy; 2Sinergise, Slovenia; 3PUCRS, Brazil; 4MPI HLL, Germany
N30 Synchrotron Radiation and FEL
Instrumentation I
Session Chairs: Markus Kuster, European XFEL GmbH, Germany
Takaki Hatsui, RIKEN, SPring-8 Center, Japan
N30-1 (16:30) The High Speed, High Dynamic Range Camera
AGIPD
J. Becker1, L. Bianco1, R. Dinapoli2, P. Goettlicher1, H. Graafsma1,3,
D. Greiffenberg2, H. Hirsemann1, S. Jack1, R. Klanner4, A. Klyuev1, H.
Krueger5, S. Lange1, A. Marras1, A. Mozzanica2, S. Rah1, B. Schmitt2, J.
Schwandt4, I. Sheviakov1, X. Shi2, U. Trunk1, J. Zhang4, M. Zimmer1
1
DESY, Germany; 2Paul-Scherrer-Institut (PSI), Switzerland; 3Mid Sweden
University, Sweden; 4University of Hamburg, Germany; 5University of Bonn,
Germany
N30-2 (16:45) Small Area Detectors at the European XFEL
M. Turcato1, P. Gessler1, S. Hauf1, A. Koch1, M. Kuster1, M. Meyer1, J.
Nordgren2, J. Sztuk-Dambietz1, C. Youngman1
1
European XFEL GmbH, Germany; 2Uppsala University, Sweden
N30-3 (17:00) Current Status of a 4 Mpixel Multiport CCD Detector
with 8 Arrayed Sensors for X-Ray Free-Electron Laser Facility SACLA
S. Ono1, T. Kameshima2, K. Ozaki1, K. Kobayashi1,2, T. Kudo1, Y. Kirihara1, T.
Abe1, M. Yamaga1,2, T. Horigome3, T. Hatsui1,2
1
RIKEN, Japan; 2Japan Synchrotron Radiation Research Institute, Japan;
3
Institute for Molecular Science, Japan
N30-4 (17:15) ePix: a Class of Front-End ASICs for Second
Generation LCLS Integrating Hybrid Pixel Detectors
A. Dragone, P. Caragiulo, B. Markovic, R. Herbst, B. Reese, S. Herrmann, P.
A. Hart, J. Segal, G. A. Carini, C. Kenney, G. Haller
SLAC National Accelerator Laboratory, USA
N30-5 (17:30) The LAMBDA Photon Counting Pixel Detector with
Silicon and Germanium Sensors
D. Pennicard1, S. Smoljanin1, S. Lange1, B. Struth1, H. Hirsemann1,
H. Graafsma1,2, M. Epple3, M. Zuvic4, M.-O. Lampert4, T. Fritzsch5, M.
Rothermund5
1
DESY, Germany; 2Mid Sweden University, Sweden; 3Technical University of
Munich, Germany; 4Canberra France, France; 5Fraunhofer IZM, Germany
N30-6 (17:45) The PERCIVAL Imager for Low Energy Photons
H. Graafsma, DESY, Germany
On behalf of the PERCIVAL Collaboration
Wednesday
N30-7 (18:00) Multielement Monolithic Germanium Detector with
1 mm2 Pads and Integrated Front-End Electronics: a Possible Path
Towards 1,000 Channels X-ray Fluorescence Detector System?
N. Tartoni1, R. Crook1, T. Krings2, D. Protic2, C. Ross2, L. Bombelli3, R.
Alberti3, T. Frizzi3, V. Astromskas4,1
1
Diamond Light Source ltd., UK; 2SEMIKON Detector GmbH, Germany;
3
XGLab S.R.L., Italy; 4University of Surrey, UK
N30-8 (18:15) A Monolithic Segmented Germanium Detector with
Highly Integrated Readout
D. P. Siddons1, T. Krings2, A. Rumaiz1, A. J. Kuczewski1, D. Protic2, C. Ross2,
G. De Geronimo1
1
Brookhaven National Laboratory, USA; 2SEMIKON Detector GmbH,
Germany
Wednesday - MIC Oral
Presentations
M01 MIC Opening and Plenary I
Wednesday, Oct. 30 08:15-10:00 GBR 102-104
Session Chair: Jae Sung Lee, Seoul National University, South Korea
(08:15) Introductory Remarks
J. S. Lee,
Nuclear Medicine, Seoul National University, Seoul, Korea
M01-1 (08:30, invited) See the Future of Medical Imaging through
Consumer Electronics and Information Technologies
J. Jo, Samsung Electronics, Korea
M01-2 (09:15, invited) Forays into Molecular Imaging
M. G. Pomper, Johns Hopkins Medical Institution, USA
M02 MIC Awards and Plenary II
Wednesday, Oct. 30 10:30-12:30 GBR 102-104
Session Chair: Craig S. Levin, Stanford University, United States
(10:30) MIC Awards
M02-1 (11:30) In-beam PET Imaging with Depth-of-interaction
Measurement for Adaptive Proton Therapy: A Feasibility Study for
Fast Intra-treatment Beam-range Verification
Y. Shao1, X. Sun1, K. Lou2, X. R. Zhu1, D. Mirkovic1, F. Poenisch1, D.
Grosshans1
1
The University of Texas M.D. Anderson Cancer Center, USA; 2Rice University,
USA
M02-2 (11:45) LSO Background Radiation as a Transmission Source
Using Time of Flight Information
H. E. Rothfuss, V. Y. Panin, I. Hong, J. Hamill, C. J. Michel, M. E. Casey
Siemens, USA
M02-3 (12:00) SPADnet: a Fully Digital, Networked Approach to
MRI Compatible PET Systems Based on Deep-Submicron CMOS
Technology
E. Charbon, Delft University of Technology, The Netherlands; C. Bruschini,
EPFL, Switzerland; C. Veerappan, Delft University of Technology, The
Netherlands; L. H. C. Braga, N. Massari, M. Perenzoni, D. Stoppa, FBK,
Italy; R. Walker, A. Erdogan, R. K. Henderson, Univ. of Edinburgh, UK; S.
East, L. Grant, STMicroelectronics, UK; B. Jatekos, F. Ujhelyi, G. Erdei, E.
Lörincz, BUTE, Hungary; L. Andre, L. Maingaultg, V. Rebound, L. Verger,
E. G. d’Aillon, CEA-LETI, France; P. Major, Z. Pepp, G. Nemeth, Mediso,
Hungary
M02-4 (12:15) Element Identification in Organic Samples Utilizing
a Modular Benchtop X-Ray Fluorescence Emission Tomography
(XFET) System
A. Groll1, J. George1, P. J. La Riviere2, L.-J. Meng1
1
University of Illinois at Urbana-Champaign, USA; 2University of Chicago,
USA
Wednesday - MIC Oral Presentations 155
Wednesday
M03 PET Instrumentation
4:00-16:00 GBR 101-102
Session Chairs: Alberto Del Guerra, University Pisa, Italy
Taiga Yamaya, National Institute of Radiological
Sciences, Japan
M03-1 (14:00) EXPLORER: an Ultra-Sensitive Total-Body PET
Scanner for Biomedical Research
S. R. Cherry1, J. S. Karp2, W. W. Moses3, J. Qi1, J. Bec1, E. Berg1, W.-S.
Choong3, J. S. Huber3, S. Krishnamoorthy2, Q. Peng3, J. Poon1, S. Surti2, X.
Zhang1, J. Zhou1, R. D. Badawi1
1
University of California, USA; 2University of Pennsylvania, USA; 3Lawrence
Berkeley National Laboratory, USA
M03-2 (14:15) Usage of Long Axial Crystals for PET Applications:
the AX-PET Demonstrator and Beyond
C. Casella, ETH Zurich, Switzerland
On behalf of the AX-PET
M03-3 (14:30) A Dedicated PET Scanner for Breast Imaging
S. Tavernier, Vrije Universiteit Brussel, Belgium
On behalf of the ClearPEM collaboration
M03-4 (14:45) A Depth of Interaction PET Detector Using Side
Surface Readout
R. S. Miyaoka, A. L. Lehnert, W. C. Hunter, University of Washington,
USA; E. Ciarrocchi, M. Giuseppina Bisogni, M. Morrocchi, A. Del Guerra,
University of Pisa, Italy
M03-5 (15:00) A New Approach for Multiplexed PET Imaging
V. Parot1, J. L. Herraiz1, S. R. Dave1, J. M. Udias2, S. C. Moore3, M.-A. Park3, J.
J. Vaquero4, E. Lage1
1
Massachusetts Institute of Technology, USA; 2Universidad Complutense
de Madrid, Spain; 3Brigham and Womens Hospital and Harvard Medical
School, USA; 4Universidad Carlos III de Madrid, Spain
M03-6 (15:15) General Spatial Distortion Correction Method for
Solid-State Position Sensitive Detectors in PET
S. Cui, A. Vandenbroucke, M. Bieniosek, C. S. Levin
Stanford University, USA
M03-7 (15:30) Timing Calibration for Time-of-Flight PET Using
Positron-Emitting Isotopes and Annihilation Targets
X. Li, K. Burr, G.-C. Wang, H. Du, D. Gagnon
Toshiba Medical Research Institute USA, Inc., U.S.A.
M03-8 (15:45) A Comparison of Quantitative Y-90 SPECT and
PET Imaging in Post-Therapy Radioembolization of Liver Cancer:
Patient Studies
J. Yue1, X. Rong2, M. A. Lodge1, R. F. Hobbs1, G. Sgouros1, J.-F. H.
Geschwind1, J. M. Herman1, R. L. Wahl1, E. C. Frey1
1
Johns Hopkins University, USA; 2Siemens Medical Systems, USA
M04 Image Reconstruction I
6:30-18:30 GBR 101-102
Session Chairs: Michael E. Casey, Siemens Medical Solutions, United
States
Johan L. Nuyts, KU Leuven, Belgium
M04-1 (16:30) Joint Registration of Attenuation and Activity
Images in Gated TOF-PET
A. Rezaei, J. Nuyts
UZ, Medical Imaging Research Center, Belgium
M04-2 (16:45) Transmission-less brain TOF PET imaging using
MLACF
V. Y. Panin1, H. Bal1, M. Defrise2, C. Hayden1, M. E. Casey1
1
Siemens Healthcare, USA; 2University Hospital UZ-VUB, Belgium
156 Wednesday - MIC Oral Presentations Wednesday
M04-3 (17:00) An MLEM Method for Simultaneous Activity and
Attenuation Reconstruction for PET Using True and Scattered
Coincidences
A. Mihlin, C. S. Levin
Stanford University, United States
M04-4 (17:15) Image Reconstruction Using Multinomial Statistics:
Application to Attenuation Correction for Time-of-Flight Positron
Emission Tomography (TOF-PET)
A. Sitek
Massachusetts General Hospital and Harvard Medical School, USA
M04-5 (17:30) Power Laws for Image Quality Measures in PET
Penalized-Likelihood Image Reconstruction
S. Ahn1, E. Asma1, R. G. Steven2, R. M. Manjeshwar1
1
GE Global Research, USA; 2GE Healthcare, USA
M04-6 (17:45) Feasible Static Uniform Resolution Penalized
Likelihood Reconstruction from List Mode Data
Y. Jian, R. E. Carson, Yale University, United States
M04-7 (18:00) A Continuous-Coordinate Image Reconstruction
Method for List-Mode TOF PET
C.-M. Kao1, H. Kim1, C.-Y. Tsai2, C.-Y. Chou2, W. Wang2, C.-T. Chen1
1
The University of Chicago, USA; 2National Taiwan University, Taiwan
M04-8 (18:15) Gated PET Image Reconstruction Using Composite
Image Prior
G. Wang, J. Qi, University of California, Davis, USA
Wednesday - MIC Oral Presentations 157
Wednesday
Wednesday - RTSD Oral
Presentations
R09 CdZnTe II
0:30-12:30 Hall E1&E2
Session Chairs: KiHyun Kim, Korea University, South Korea
Aleksey E. Bolotnikov, Brookhaven National
R09-1 (10:30, invited) Review of the Compound Semiconductor
Based Room-Temperature Radiation Detector Development at
KAERI
M. Jeong, H. S. Kim, Y. S. Kim, J. H. Ha
Korea Atomic Energy Research Institute, South Korea
R09-2 (10:50, invited) Improving Crystallinity in CdZnTe Grown in
Vertical Gradient Freeze Furnaces
E. Dieguez, A. Black, H. Bensalah, J. Crocco, M. Shkir
PROFESSOR, ES
R09-3 (11:10) Effects of Fabrication Processes on the Performance
of CZT Radiation Detectors
G. S. Camarda1, A. E. Bolotnikov1, T. Chan2, Y. Cui1, V. Dedic1, A. Hossain1,
K. Lee3, U. Roy1, G. Yang1, R. B. James1
1
Brookhaven National Lab, USA; 2University of Alabama in Huntsville, USA;
3
Korea University, South Korea
R09-4 (11:25, invited) Electronic States of Impurities in CdZnTe
K. Kim1, S. Kim1, E. Kim1, P. Kim1, R. Tappero2, A. E. Bolotnikov2, G. S.
Camarda2, J. Hong1, R. B. James2
1
Korea University, Republic of Korea; 2Brookhaven National Laboratory,
USA
R09-5 (11:45) On the Use of Pulse Shape Analysis to Identify Events
Caused by Surface Contaminants in the Search for the Neutrinoless
Double Beta Decay
D. Gehre, Technical University Dresden, Germany
On behalf of the COBRA-Collaboration
R09-6 (12:00) Performance Comparison of Steering-Grid and
Simple-Pixel CdZnTe Detectors
Y. Zhu, F. Zhang, Y. A. Boucher, J. Mann, H. Yang, Z. He
R09-7 (12:15) Effect of Te Inclusions on the Charge Carriers Drift
Time and Trajectory in CdZnTe Detectors
Y. Xu, Y. Gu, R. Guo, T. Wang, W. Jie
Northwestern Polytechnical University, China
R10 RTSD Scientist Award and CdZnTe III
4:00-15:55 Hall E1&E2
Session Chairs: Michael Fiederle, Freiburger
Materialforschungszentrum, Germany
Ralph James, Brookhaven National Laboratory, United
States
R10-1 (14:00) RTSD Scientist Award Presentation
Korea
R10-2 (14:05, invited) Cadmium Zinc Telluride, the Soul of RTSD, a
History by Conferences
H. Chen, Redlen Technologies, Canada
158 Wednesday - MIC Oral Presentations Wednesday
R10-3 (14:30) Performance Comparison of Detector Grade CdZnTe
Grown under Varying Non-Stoichiometric Growth Conditions
K. G. Lynn, Center for Materials Research, Washington State University,
United States
On behalf of the Center for Materials Research, Washington State
University
R10-4 (14:45, invited) Evolution of Structural and Electrical
Properties of CdZnTe Crystals During Post-Growth Annealing
Process
G. Yang1, A. E. Bolotnikov1, Y. Cui1, G. S. Camarda1, A. Hossain1, U. Roy1, P.
M. Fochuk2, V. Dedic3, R. B. James1
1
Brookhaven National Laboratory, USA; 2Chernivtsi National University,
Ukraine; 3Charles University Prague, Czech Republic
R10-5 (15:05) Migration of Te Inclusions in Temperature-Gradient
Post-Growth Annealing of CdZnTe Nuclear Detectors
S. U. Egarievwe, M. L. Drabo, A. A. Egarievwe, J. Gray, I. O. Okwechime,
J. Mwathi, A. L. Adams, Alabama A&M University, USA; G. Yang, G. S.
Camarda, A. E. Bolotnikov, R. B. James, Brookhaven National Laboratory,
USA
R10-6 (15:20, invited) Approaches for the Reduction of Inclusion
Density in CdZnTe Crystals: Laser and Thermal Annealing
A. Zappettini1, N. Zambelli1,2, G. Piacentini1,2, G. Benassi1, D. Calestani1
1
CNR, Italy; 2University of Parma, Italy
R10-7 (15:40) The Effects of Trapping and De-trapping on the
Carrier Lifetime of CdZnTe and the Performance of CdZnTe
Detectors
G. Zha, N. Wang, T. Wang, Y. Xu, W. Jie
Northwestern Polytechnical University, China
Wednesday - RTSD Oral Presentations 159
Wednesday
Wednesday - Joint Oral
Presentations
J4 NSS-RTSD Joint Session
6:30-18:30 Hall E1&E2
Session Chairs: Grzegorz W. Deptuch, Fermilab, United States
Jang Ho Ha, Korea Atomic Energy Research Institute,
South Korea
J4-1 (16:30) Sensor Modules for Large Area Imaging: Technology
and Interconnectivity
J. J. Kalliopuska, S. Vahanen, Advacam, Finland; J. Jakubek, Czech
Technical University, Czech Republic; J. Alozy, M. Campbell, CERN EP,
Switzerland
J4-2 (16:45, invited) Advancement on 3-D CdZnTe Detectors Using
Digital ASIC
Z. He, Y. F. Zhu, H. Yang, F. Zhang
The University of Michigan, USA
J4-3 (17:00) Development of a Gamma-Ray Camera Based of
Arrays of Virtual Frisch-Grid Detectors
A. E. Bolotnikov, G. S. Camarda, Y. Cui, G. De Geronimo, J. Fried, K. Lee, G.
Mahler, M. Marshall, U. Roy, G. Yang, E. Vernon, R. B. James
J4-4 (17:15, invited) Development of Very Compact Soft-GammaRay Cameras Using Fine Coded Apertures
A. Togo1,2, S. Watanabe1,2, S. Takeda1, G. Sato1,3, H. Odaka1, T. Fukuyama1,2,
K. Hagino1,2, Y. Uchida1,2, T. Takahashi1,2
1
ISAS/JAXA, Japan; 2The University of Tokyo, Japan; 3RIKEN, Japan
J4-5 (17:30) Demonstration of CCD-Strip Devices and Improved
Timing in Electron Track Compton Imagers
R. T. Pavlovsky, University of California Berkeley, USA; P. J. Barton, D. H.
Chivers, K. Vetter, S. E. Holland, Lawrence Berkeley National Laboratory,
USA; T.-E. Hansen, A. Kok, SINTEF, Norway
J4-6 (17:45) Development and Test of a 3D Diamond Detector for
Ionising Radiation
A. Oh, Manchester University, UK
On behalf of the 3D Diamond Group & RD42
J4-7 (18:00, invited) Radiation Detection and Imaging with the
MEDIPIX Family Readout Electronics
C. Frojdh, Mid Sweden University, Sweden
J4-8 (18:15) New Developments of SDD-Based X-Ray Detectors for
the Siddharta-2 Experiment.
R. Quaglia1,2, L. Bombelli3, C. Fiorini1,2, G. Giacomini4, A. Picciotto4, F.
Ficorella4, C. Piemonte4
1
Politecnico di Milano, Italy; 2INFN Sezione di Milano, Italy; 3XGLab srl, Italy;
4
160 Wednesday - Joint Oral Presentations Wednesday
Wednesday - NSS Poster
Presentations
NPO2 NSS Poster II
Wednesday, Oct. 30 14:00-16:00 Hall B2
Session Chairs: Kisung Lee, Korea University, United States
Jung-Yeol Yeom, Stanford University, United States
Accelerator Technology
NPO2-1 Neutron Beam Measurements from MP320 Portable
Neutron Generator
A. A. Naqvi, F. A. Al-Matouq, M. M. Maslehuddin, O. S. B. Al-Amoudi, M. A.
Gondal, F. Z. Khiari, K. ur-Rehman, M. Raashid, M. Dastageer
King Fahd University of Petroleum and Minerals, Saudi Arabia
NPO2-2 Study on 2-Cell RF-Deflector Cavity for Ultra-Short
Electron Bunch Measurement
Y. Nishimura, T. Takahashi, K. Sakaue, M. Washio, Waseda University,
Japan; T. Takatomi, J. Urakawa, High Energy Accelerator Research
Organization, Japan
NPO2-3 Development of a Compact X-Ray Source via LaserCompton Scattering
K. Sakaue, M. Washio, Waseda University, Japan; S. Araki, M. Fukuda, T.
Miyoshi, N. Terunuma, J. Urakawa, KEK, Japan
NPO2-4 Design of the DC Gun for S-Band Electron LINAC
K. B. Song, B.-N. Lee, H. D. Park, S. S. Cha, B. C. Lee
NPO2-5 Beam Dynamics in 10 MeV S-Band LINAC for Container
Inspection System
B. N. Lee1,2, S. S. Cha1, H. D. Park1, K. B. Song1, J. S. Chai2, B. C. Lee1
1
Korea Atomic Energy Research Institute, South Korea; 2Sungkyunkwan
University, South Korea
NPO2-6 Dual-Energy Driving Method for S-Band Interlaced
Electron LINAC
H. D. Park, B.-N. Lee, K. B. Song, S. S. Cha, B. C. Lee
NPO2-7 Computer Simulation of the Cavity Geometry for a S-Band
Side Coupled Cavity
S. S. Cha1,2, B. N. Lee2,3, K. B. Song2, H. D. Park2, B. C. Lee2
1
University of Science and Technology, Korea; 2Korea Atomic Energy
Research Institute, Korea; 3Sungkyunkwan University, Korea
Instrumentation for Experimental Reactors
and Nuclear Power
NPO2-8 A FPGA Based Data Acquisition System for Research
Reactor Operational Monitoring
S.-Y. Chen, H.-P. Chou, National Tsing Hua University, Taiwan
NPO2-9 Analysis of LiF-Coated Thin-Film Diamond Semiconductors
for Neutron Flux Monitoring at ATR-NSUF
D. L. Chichester1, J. T. Johnson1, M. K. Robinson1,2
1
Idaho National Laboratory, USA; 2Massachusetts Institute of Technology, USA
NPO2-10 Development of Neutron Energy Spectrometer for KSTAR
Fusion Device
Y. Yamamoto1, F. Yamashita1, H. Tomita1, M. Isobe2, M. Cheon3, K. Ogawa2,
J. Kawarabayashi1, T. Iguchi1
1
Nagoya university, Japan; 2National Institute for Fusion Science, Japan;
3
National Fusion Research Institute, Republic of Korea
Wednesday - NSS Poster Presentations 161
NPO2-11 Development of Gamma-Ray Imaging Detectors for
Wednesday
Inventory Analysis of Low-Level Radioactive Waste Including
Nuclear Materials
H. Tomita, T. Shimoyama, K. Kawai, T. Takahashi, J. Kawarabayashi, T.
Iguchi, Nagoya University, Japan
NPO2-12 Deconvolution of 1x1 Labr3 Scintillator High Enriched
Samples Spectra for Fuel Burnup Applications
J. Navarro1, T. A. Ring2, D. W. Nigg1
1
Idaho National Laboratory/USRA/University of Utah, USA; 2University of
Utah, USA
NPO2-13 Challenges in Characterizing Multilayer Coatings for Use
in Soft Gamma-Ray Detection and Filtering
N. F. Brejnholt, M.-A. Descalle, R. Soufli, M. J. Pivovaroff, Lawrence
Livermore National Laboratory, United States of America; V. Honkimki,
European Synchrotron Radiation Facility, France; F. E. Christensen, A. C.
Jakobsen, Technical University of Denmark, Denmark
NPO2-14 Prediction of Reactor Vessel Water Level Using GMDH in
Severe Accidents Due to LOCA
S. H. Park, J. H. Kim, M. G. Na∗,Chosun University, South Korea
Instrumentation for Homeland Security
NPO2-15 The 3-Dimensional Elemental Imaging Method Research
based on Photoneutron Analysis
Y. Yang1,2, J. Yang1,2, Y. Li1,2
1
Tsinghua University, China; 2Key Laboratory of Particle & Radiation
Imaging Tsinghua University, China
NPO2-16 Real-Time Radioxenon Measurements with a Well-Type
Phoswich Detector
A. Farsoni, B. Alemayehu, L. Ranjbar, Oregon State Universtiy, USA
NPO2-17 Development of a Three-Dimensional Model for Sensor
Positioning
C. Shenton-Taylor, AWE, UK
NPO2-18 Feasibility of Using LiMnO2 Batteries for Nuclear
Forensics
K. Holbert, T. Zhang, T. Stannard, Arizona State University, USA; E. B.
Johnson, Radiation Monitoring Devices, Inc., USA
NPO2-19 Next-Generation Fast-Neutron/X-Ray Scanner for Air
Cargo Interrogation
J. Tickner1, N. Cutmore1, J. Eberhardt1, J. Li2,3, Y. Liu1, R. Preston1,4, Y. Li2,3
1
CSIRO, Australia; 2Nuctech Company Ltd, China; 3Tsinghua University,
China; 4University of Wollongong, Australia
NPO2-20 Research of 9Be Photoneutron Source Used in the
Photoneutron and X-Ray Radiography System
Y. Liu1,2, Y. Yang1,2
1
NPO2-21 Photo-Fission Based Alarm Resolution System
J. Bendahan, M. Elsalim, J. Kwong, M. J. King, Rapiscan Laboratories, USA
NPO2-22 Simultaneous Detection of Radioactive Sources and
Inference of Their Properties
P. Tandon, P. Huggins, A. Dubrawski, Carnegie Mellon University, USA; S.
Labov, K. Nelson, Lawrence Livermore National Lab, USA
NPO2-23 A Three Dimensional Visualization Based on the Stereo
X-Ray Scanned Images
N. Lee1, S. Park2, Y. Hwang1
1
Korea Atomic Energy Research Institute, Korea(South); 2Kyungpook
National University, Korea(South)
NPO2-24 Preliminary Results of a 2-D Imaging Detector with a
Plastic Scintillator and Wavelength-shifting Fiber Arrays for a Muon
Tomography
W. J. Jo1,2, H.-I. Kim1,2, S. J. An1,2, C. Y. Lee1,2, H. K. Song1,2, Y. H. Chung1,2
1
College of Health Sceince, Yonsei University, Korea; 2Institution of Health
Science, Yonsei University, Korea
162 Wednesday - NSS Poster Presentations NPO2-25 Performance of Radionuclide Identification Algorithms
Wednesday
with Variations in Background Radiation During Urban Surveys
A. Flynn, D. Boardman, M. Reinhard
Australian Nuclear Science and Technology Organisation, Australia
NPO2-26 Performance Evaluation of a Compact Coded-Aperture
Gamma Camera for Gamma-Ray Radiation Sources Imaging
Y. Qi1, L. Chen2, C. Zhao2, Y. Li2, A. Rosenfeld1, B. M. W. Tsui3
1
University of Wollongong, Australia; 2Chinese Academy of Sciences, China;
3
Johns Hopkins University, USA
NPO2-27 High Flux Laser-Compton Scattered Gamma-Ray Source
by Compressed Nd:YAG Laser Pulse
I. Daito1, M. Kando2, T. Shizuma2, T. Hayakawa2, C. Angell2, R. Hajima2, H.
Ohgaki1
1
Institute of Advanced Energy, Kyoto University, Japan; 2Japan Atomic
Energy Agency, Japan
NPO2-28 Achievable Position Resolution of an Alpha Detector
with Continuous Spatial Response for Use in Associated Particle
Imaging
J. W. Cates1, J. P. Hayward1,2, X. Zhang1
1
NPO2-29 Preliminary Analysis of Imaging Performance in CosmicRay Muon Radiography
B. Yu1,2, Z. Zhao1,2, X. Wang1,2, H. Yi1,2, Z. Zeng1,2, D. Wu1,2, J. Cheng1,2
1
NPO2-30 Optimization of Geometric Configuration of Detector
System for Non-destructive Assay Using Nuclear Resonance
Fluorescence Technique With Laser Compton Backscattering
H. Negm, M. Omer, H. Zen, T. Kii, K. Masuda, T. Hori, H. Ohgaki, Institute
of Advanced Energy, Kyoto University, Japan; R. Hajima, N. Kikuzawa,
T. Shizuma, T. Hayakawa, I. Daito, Japan Atomic Energy Agency, Japan;
H. Toyokawa, National Institute of Advanced Industrial Science and
Technology, Japan
NPO2-31 Fast Neutron Background Measurements Using a Mobile
Detection System in Downtown Knoxville
A. S. Iyengar1, M. Beach1, J. P. Hayward1,2, L. Fabris1, J. Newby1, B. Dabbs2,
L. H. Heilbronn2
1
Oak Ridge National Laboratory, USA; 2University of Tennessee, USA
NPO2-32 Preliminary Research on Application of Muon Energy
Measurement Based on TOF for Muon Tomography
Z. Luo1,2, X. Wang1,2, Z. Zeng1,2, Y. Wang1,2, M. Zeng1,2, Z. Zhao1,2, J.
Cheng1,2, H. Yi1,2, B. Yu1,2, X. Yue1,2, X. Fan1,2
1
Ministry of Education, China; 2Department of Engineering Physics,
NPO2-33 Identification of Nuclear Materials by Detecting Cosmic
Rays with Gaseous and Scintillator Detectors
T. B. Blackwell, V. A. Kudryavtsev, University of Sheffield, United Kingdom
NPO2-34 Calibration, Optimization and Muon Tomographic Images
from the Cosmic Ray Inspection and Passive Tomography (CRIPT)
System
V. N. P. Anghel1, J. Armitage2, F. Baig1, J. Botte2, K. Boudjemline2,3,
D. Bryman4, J. Bueno4, E. Charles3, T. J. Cousins5, P.-L. Drouin3,6, A.
Erlandson1,2, G. Gallant3, R. Gazit4, V. Golovko1, R. Hydomako4,6, C.
Jewett1, Z. Liu4, S. Noel5, F. G. Oakham2, T. J. Stocki7, M. Thompson1, D.
Waller6
1
Atomic Energy of Canada Limited, Canada; 2Carleton University, Canada;
3
Canada Border Services Agency, Canada; 4Advanced Applied Physics
Solutions, Canada; 5International Safety Research, Canada; 6Defence
Research and Development Canada, Canada; 7Health Canada, Canada
NPO2-35 Neutron Spectrometry and Source Location Using SolidState Detectors
J. Clinton, B. Kowash, S. McHale, J. McClory
Air Force Institute of Technology, USA
NPO2-36 RPMs Performances Enhancement - Using Matched Filter
Wednesday
Algorithm and GLRT to Estimate Source Activity and Location
M. Ghelman1, V. Berdichevsky1, E. Vax1, A. Osovizky2, E. Marcus1, D.
Ginzburg2, E. Gonen1, T. Mazor1, Y. Cohen1
1
NRCN, ISRAEL; 2Rotem, ISRAEL
NPO2-37 Development of Supervisory Logic Algorithms for
Enhanced Radiation Detection
D. J. Lange, L. Bentley Tammero, K. Nelson, K. Ni, R. Wheeler
Lawrence Livermore National Laboratory, USA
NPO2-38 Decision Fusion for Improved Detection of Buried
Radioactive Objects
Z. Long1, Q. Du1, W. Wei2, N. H. Younan1
1
Mississippi State University, USA; 2Multicoreware Inc., USA
NPO2-39 Method for Thermal Neutron Imaging Using a 3D
Position-Sensitive CdZnTe Detector Array
S. T. Brown, Z. He
NPO2-40 3D Image Reconstruction Using a Statistical Origin
Ensembles Algorithm for a Vehicle-Mounted Coded Aperture
Gamma Camera
L. Blackberg1, A. Sitek2, G. T. Gullberg3, L. Mihailescu3, K. Vetter3,4, J. S. Maltz3
1
Uppsala University, Sweden; 2Brigham and Women’s Hospital and
Harward Medical School, USA; 3Lawrence Berkeley National Laboratory,
USA; 4University of California, Berkeley, USA
NPO2-41 Pulsed Power Active Interrogation of Shielded
Fissionable Material
R. S. Woolf, National Research Council Postdoctoral Fellow, USA; B. F.
Phlips, A. L. Hutcheson, E. A. Wulf, J. C. Zier, S. L. Jackson, R. J. Commisso,
J. W. Schumer, US Naval Research Laboratory, USA; C. Clemett, J. O’
Malley, C. Hill, R. Maddock, P. Martin, J. Threadgold, AWE Plc., UK
Instrumentation for Bio-Medical Research
NPO2-43 Imaging Radiocesium Uptake Dynamics in Soybean
Shoot System Using a Gamma Camera
N. Kawachi1, Y.-G. Yin1, N. Suzui1, S. Ishii1, H. Watabe2, S. Yamamoto3, S.
Fujimaki1
1
Japan Atomic Energy Agency, Japan; 2Tohoku University, Japan; 3Nagoya
University, Japan
NPO2-44 Silicon Planar Structures as Detectors for Microbeam
Radiation Therapy
I. E. Anokhin1, M. Lerch2, M. Petasecca2, O. Zinets1, A. Rosenfeld2
1
Institute for Nuclear Research, Ukraine; 2Centre for Medical Radiation
Physics, University of Wollongong, Australia
NPO2-46 Development of an Exclusive Silicon Detector for
Automatic Module of PET Radiopharmaceuticals
S. J. Jeon1,2, J. Y. Kim1, Y. J. Jeong1, K. C. Lee1, E. J. Kim1, K. S. Joo2, J.-M.
Kim3, C. S. Lee3, J. G. Kim1
1
Korea Institute of Radiological & Medical Sciences, Korea; 2Myongji
University, Korea; 3Sogang Institute of Advanced Technology, Korea
NPO2-47 High Density and High Spatial Resolution Imaging at P05
Petra III
I. Greving1, J. Herzen1, F. Wilde1, F. Beckmann1, M. Ogurreck1, T. Dose1, F.
Friedrich2, M. Mueller1, A. Schreier1
1
Helmholtz-Zentrum Geesthacht, Germany; 2Univ. of Hamburg, Germany
NPO2-48 A Novel Dual-Verification Quality Assurance System for
External Beam Radiotherapy
C. S. Porumb1, I. Fuduli1, M. Petasecca1, Z. A. Alrowaili1, A. A. Espinoza1, A.
H. Aldosari1, A. Cullen1,2, V. L. Perevertaylo3, M. Carolan2, M. L. F. Lerch1, A.
B. Rosenfeld1
1
University of Wollongong, Australia; 2Wollongong Hospital, Australia;
3
SPA-BIT, Ukraine
164 Wednesday - NSS Poster Presentations NPO2-49 Transportable Neutron Activation Analysis System to
Wednesday
Quantify Manganese in Bone in Vivo
L. H. Nie, Y. Liu, D. Koltick, P. Byrne, W. Zheng, Purdue University, USA
NPO2-50 X-ray Scattering and Attenuation Characterization of
Breast Tissues using an Energy Dispersive X-ray System (EDXS)
M. Antoniassi, W. Geraldelli, V. G. R. Salazar, M. E. Poletti, Faculdade de
Filosofia Ciências e Letras de Ribeirão Preto - Universidade de São Paulo, Brazil
NPO2-51 Radiation Hardness of EPI Silicon Detector for 2D
Dosimetry in External Radiation Therapy
A. H. Aldosari1, M. Petasecca1, A. Espinoza1, D. Robinson1, L. Fuduli1, C.
Porumb1, A. Cullen1, V. Perevertaylo2, S. Alshaika1, M. Carolan3, M. L. F.
Lerch1, A. B. Rosenfeld1
1
university of Wollongong, Australia; 2SPA-BIT, Ukraine; 3Illawarra Cancer
Care Centre,Wollongong, Australia
NPO2-52 A Method for Characterization of PhytoPET in Plant
Growth Media
S. Lee, A. G. Weisenberger, Thomas Jefferson National Accelerator Facility,
United States; M. F. Smith, University of Maryland, United States
NPO2-53 Relations Between System Matrices and the Complete
Data Space in MLEM Using the Kullback-Leibler Distance
S. S. Huh1, N. H. Clinthorne2, A. Haefner3, D. Chivers1, L. Mihailescu1, K.
Vetter1
1
Lawrence Berkeley National Lab, USA; 2University of Michigan, USA;
3
University of California, Berkeley, USA
NPO2-54 Imaging Corn Plants with PhytoPET, a Modular PET
System for Plant Biology
S. Lee, A. Weisenberger, B. Kross, J. McKisson, J. E. McKisson, W. Xi, C. Zron,
Thomas Jefferson National Accelerator Facility, United States; G. Bonito, C.
R. Howell, C. D. Reid, A. Crowell, L. Cumberbatch, C. Topp, Duke University,
United States; M. F. Smith, University of Maryland, United States
NPO2-55 Monte Carlo Optimisation of a Dosimetry System for Eye
Plaque Brachytherapy Quality Assurance
M. R. Weaver1, D. Cutajar1, S. Guatelli1, M. Petasecca1, M. L. F. Lerch1, V.
Perevertaylo2, A. B. Rosenfeld1
1
University of Wollongong, Australia; 2SPA BIT, Ukraine
NPO2-56 Brachyview: An In-Body Imaging System for Real-Time
QA in HDR Prostate Brachytherapy
Z. Han1, M. S. Naeini1, M. Petasecca1, D. Cutajar1, M. Lerch1, D. R. Franklin2,
J. Jakubek3, J. Zemlicka3, S. Pospisil3, J. Bucci4, M. Zaider5, A. Rosenfeld1
1
University of Wollongong, Australia; 2University of Technology Sydney,
Australia; 3Czech Technical University, Czech Republic; 4St George Hospital,
Australia; 5Memorial Sloan Kettering Cancer Centre, U.S.A
NPO2-57 Characterization of a 2D Diode Array as a Radiotherapy
Fluence Detector
Z. A. Alrowaili1,2, I. Fuduli1, A. Espinoza1, C. S. Porumb1, S. Alshaikh1, M.
Petasecca1, M. Carolan3, P. Metcalfe1, M. L. F. Lerch1, A. Rosenfeld1
1
University of Wollongong, AU; 2Aljouf University, Saudi Arabia;
3
Wollongong hospital, AU
NPO2-58 Activation Measurement for Material Selection of
OpenPET Components in Particle Therapy
M. Nitta1,2, Y. Hirano2, F. Nishikido2, N. Inadama2, E. Yoshida2, H. Tashima2,
Y. Nakajima2, H. Kawai1, T. Yamaya2
1
Chiba University, Japan; 2National Institute of Radiological Science, Japan
Nuclear Physics Instrumentation and
Applications
NPO2-59 Systematic Characterization of Double Sided Silicon
Microstrip Sensors for the CBM Experiment at FAIR
P. Ghosh, GSI Helmholtz Center for Heavy Ion Research, Darmstadt and
Goethe University, Frankfurt am Main, Germany
On behalf of the CBM Collaboration
NPO2-60 Primary Measurement of FDG by Liquid Scintillation
Wednesday
Digital Coincidence Counting for Nuclear Medicine in Korea
K. B. Lee, J. M. Lee, T. S. Park, S. H. Lee, P. J. Oh, M. K. Lee, J. B. Han
KRISS, Repulic of Korea
NPO2-61 Tests of Neutron Detector Arrays for LAMPS at RAON
K. S. Lee, B. Hong, E. Joo, Y. Go, K. S. Lee, J. W. Lee, S. Lee, B. Mulilo
NPO2-62 LaCl3:Ce Detector Performance for 170-500 keV Gamma
Rays
A. A. Naqvi, F. A. Al-Matouq, M. A. Gondal, F. Z. Khiari, K. ur-Rehman, M.
Raashid, M. Dastageer, King Fahd University of Petrol, Saudi Arabia
NPO2-63 Bridgman Growth of Large Sized TeO2 Crytal with Sm
Doping for the Research of Neutrinoless Double Beta Decay
Y. Zhu, Z. Ge, S. Yue, W. Li, Shanghai Institute of Ceramics, Chinese
Academy of Sciences, China; I. Dafinei, INFN Sezione di Roma, Italy
NPO2-64 Status of the Development of a Single Gamma-Ray
Imaging System for in-Vivo Dosimetry at Particle Beams
S. Schoene1, W. Enghardt1,2, C. Golnik2, F. Hueso-Gonzalez2, T. Kormoll2,
A. Mueller2, G. Pausch2, J. Petzoldt2, H. Rohling2, K. Roemer1, F. Fiedler1
1
Helmholtz-Zentrum Dresden-Rossendorf, Germany; 2OncoRay, TU
Dresden, Germany
NPO2-65 A New Gamma-Ray Detector, 3-Dimension, Scanning
Table for Gamma-Ray Tracking Arrays
M. Ginsz, G. Duchene, IPHC, France; B. Pirard, Canberra, France
NPO2-66 AMoRE Experiment to Search for Neutrinoless Double
Beta Decay of Molybdenum-100 with Scintillating Bolometers
V. V. Kobychev, Kyungpook National University, KOREA
On behalf of the AMoRE Collaboration
NPO2-67 Investigation of Active Background Associated with
Prompt Gammas from Photofission in Depleted Uranium Using
Glass Cherenkov Sensing and Gamma Ray Time-of-Flight Analysis
B. Ayaz-Maierhafer1, X. Zhang1, M. A. Laubach1, Z. W. Bell2, J. P. Hayward1,2
1
NPO2-68 Antihydrogen Identification with Silicon Vertex Detector
in the ALPHA Experiment
J. T. K. McKenna, P. Pusa, D. Wells, D. Seddon, J. Thornhill, J. A.
Sampson, P. J. Nolan, University of Liverpool, United Kingdom; T. ALPHA
Collaboration, CERN, Switzerland
NPO2-69 Response of the Compact Space-Borne Gamma-Ray Burst
Polarimeter POLAR to linear polarized gamma rays
H. Xiao1, T. Bao1, T. Batsch2, I. Britvitch3, F. Cadoux4, J. Chai1, Y. Dong1,
N. Gauvin4, W. Hajdas3, M. Kong1, C. Leluc4, L. Li1, J. Liu1, X. Liu1, R.
Marcinkowski3, S. Orsi4, M. Pohl4, N. Produit4, D. Rapin4, A. Rutczynska2,
D. Rybka3, H. Shi1, J. Sun1, J. Szabelski2, R. Wang1, X. Wen1, B. Wu1, H. Xu1,
L. Zhang1, L. Zhang1, S. Zhang1, Y. Zhang1, A. Zwolinska2
1
Institute of High Energy Physics, China; 2National Centre for Nuclear
Research, Poland; 3Paul Scherrer Institute, Switzerland; 4University of
Geneva, Switzerland
NPO2-70 Dependence of the Leakage Current on the Performance
of the Silicon Drift Detector Based X-Ray Spectrometer
M. Shanmugam1, Y. B. Acharya1, H. S. Mazumdar2, S. V. Vadawale1
1
Physical Research Laboratory, India; 2Dharmsinh Desai University, India
NPO2-71 A Very Low Noise and Low Drift Voltage Regulator for
Rare Event Searches with Bolometric Detectors
L. Cassina, A. Giachero, C. Gotti, M. Maino, G. Pessina
INFN and Univ. Milano Bicocca, Italy
NPO2-72 ALIBAVA Silicon Microstrip Readout System for
Educational Purposes
S. Marti-Garcia1, J. Bernabeu1, G. Casse2, C. Garcia1, A. Greenall3, C.
Lacasta1, M. Lozano2, G. Pellegrini2, J. Rodriguez4, M. Ullan2
1
Instituto de Fisica Corpuscular (IFIC), Spain; 2Instituto de Microelectronica
(IMB-CNM), Spain; 3University of Liverpool, United Kingdom; 4Alibava
Systems S. L., Sapin
166 Wednesday - NSS Poster Presentations NPO2-73 Time-of-Flight Detector for the Characterisation of Laser-
Wednesday
Accelerated Protons
M. Seimetz1, P. Bellido1, A. Soriano1, C. Huertas1, J. Garcia2, C. Jimenez2,
B. Fernandez2, P. Conde1, E. Crespo1, A. J. Gonzalez1, L. Hernandez1, A.
Iborra1, F. Martos1, L. Moliner1, J. P. Rigla1, M. J. Rodriguez-Alvarez1, F.
Sanchez1, L. F. Vidal1, J. M. Benlloch1
1
Instituto de Instrumentacion para Imagen Molecular (I3M), Spain; 2Centro
Nacional de Aceleradores, Spain
NPO2-74 Effective Solid Angle Method for the Efficiency
Calculation of Voluminous Gamma-Ray Source
M. Y. Kang, J. H. Kim, J. H. Kim, H. D. Choi, Seoul National University, Korea;
G. M. Sun, Korea Atomic Energy Research Institute (KAERI), Korea
NPO2-75 Self-Calibrating Gain Stabilization Method for
Applications Using Silicon Photomultipliers
P. Dorosz, W. Kucewicz, M. Baszczyk, S. Glab, L. Mik, M. Sapor
AGH University of Science and Technology, Poland
NPO2-76 Dosimetric Calibration of Radiochromic Film for LaserAccelerated Proton Beams
P. Bellido1, M. Seimetz1, J. Garcia2, C. Jimenez2, B. Fernandez2, P. Conde1,
E. Crepso1, A. J. Gonzalez1, L. Hernandez1, A. Iborra1, F. Martos1, L.
Moliner1, J. P. Rigla1, M. J. Rodriguez-Alvarez1, F. Sanchez1, A. Soriano1, L.
F. Vidal1, J. M. Benlloch1
1
Instituto de Instrumentacion para Imagen Molecular (I3M), Spain; 2Centro
Nacional de Aceleradores, Spain
NPO2-77 Investigation of Imaging and Spectroscopy Performances
of a 1x1 LaBr3(Ce) Scintillator Readout by Silicon Drift Detectors
for Nuclear Physics Measurements
P. Busca1,2, A. Butt1,2, C. Fiorini1,2, A. Marone1,2, M. Occhipinti1,2, R. Peloso1,2,
R. Quaglia1,2, F. Camera2,3, B. Million2, G. Giacomini4, C. Piemonte4
1
Politecnico di Milano, Italy; 2Istituto Nazionale Fisica Nucleare, Italy;
3
Universit degli Studi di Milano, Italy; 4Fondazione Bruno Kessler, Italy
NPO2-78 Advanced Muon Imaging Techniques and Applications
K. N. Borozdin, C. L. Morris, J. O. Perry, J. D. Bacon, H. Miyadera
NPO2-79 Study of Neutron Induced Reactions on the Radioactive
7Be Nuclei Using the Large Angle Coincidence Spectroscopy
J. Vacik, V. Hnatowicz, I. Tomandl, Nuclear Physics Institute, Academy of
Sciences of the Czech Republic, Czech Republic; U. Koster, Institute of LaueLangevin, France
NPO2-80 Energy Calibration of Organic Liquid Scintillation
Detectors by Using a Two-Dimensional Mapping Method
P.-E. Tsai, L. Heilbronn, University of Tennessee, USA
NPO2-81 Discrete Modeling of Tracer Transport and Retention in
Deformable Reactive Porous Medium
R. Boutchko, N. T. Vandehey, J. P. O’Neil, S. E. Derenzo, G. T. Gullberg, W.
W. Moses, Lawrence Berkeley National Lab, USA
NPO2-82 Spectroscopic Capability of a Proton Radiator-Coupled
Diamond-Based Neutron Spectrometer
E. Lukosi, H. Hale, University of Tennessee, USA
NPO2-83 An Upgraded Readout and Control Electronic System for
the TOTEM T2 Detector
F. Spinella, E. Pedreschi, italian institute for nuclear physics - section of
Pisa, Italy; N. Turini, Universita’ degli Studi di Siena, Italy
NPO2-84 The Monster-Range Charge Sensitive Preamp
H. Yaver, M. R. Maier*, Lawrence Berkeley Laboratory, USA
NPO2-85 Design and Tests of Si-CsI Detector System for LAMPS at
RAON
Y. J. Kim, D. Kim, G. Kim, Y. H. Kim, Y.-J. Kim, Y. Kim, Y.-K. Kwon, T. Shin,
C. C. Yun, Institute for Basic Science, S. Korea; B. Hong, E. Joo, Y. J. Ko, K.
S. Lee, K. S. Lee, J. W. Lee, S. Lee, B. Mulilo, Korea University, S. Korea; E.
Kim, H. Kim, Chonbuk National University, S. Korea; J. Ahn, H. Lee, Pusan
National University, S. Korea
NPO2-86 Design of Fast Kicker for the Muons-on-Request at RAON
Wednesday
I.-I. Jung1, Y. Kim1, J. H. Lee1, Z. Jang2, G. D. Kim1, Y. K. Kim1, K. Y. Choi3, B.
J. Suh4
1
Institute for Basic Science, South Korea; 2Kookmin University, South Korea;
3
Chung-Ang University, South Korea; 4The Catholic University of Korea,
South Korea
High-Energy Physics Instrumentation
NPO2-87 Performance of the ATLAS Zero Degree Calorimeter
M. Leite, Universidade de Sao Paulo, Brazil
NPO2-88 The sTGC First Level Muon Trigger in the New Small Wheel
Region of the ATLAS Detector
M. Curatolo, CERN, Switzerland
On behalf of the ATLAS Muon Collaboration
NPO2-89 Role of the RPC Detector in the CMS Muon System for
Tracking and Trigger
M. S. Kim, SungKyunKwan University, South Korea
NPO2-90 A Fast Calibration System for SiPM Based Scintillator
HCAL Detector
I. Polak
FZU, Institute of Physics ASCR, Prague, Czech republic
NPO2-91 Optimization of the Gas System in the CMS RPC Detector
at the LHC
J. Seo, SungKyunKwan University, South Korea
NPO2-92 Performance and operation experience of the Atlas
Semiconductor Tracker
P. Pani, National Institute of Subatomic Physics, Netherlands
On behalf of the ATLAS Semi Conductor Tracker collaboration
NPO2-93 Tests of a Phenolic Four-Gap RPC with High-Rate Gammas
and Neutrons for the CMS/LHC Experiments
M. S. Jeong, Korea Detector Laboratory, Korea University, Korea
NPO2-94 Searching for Neutrinoless Double-Beta Decay with HPGe
Detectors
J. C. Loach, Shanghai Jiaotong University, China
On behalf of the MAJORANA collaboration
NPO2-95 Recent Progress in Ultra-Low Noise, Ultra-Low
Background HPGe Detectors
V. Marian, B. Pirard, P. Quirin, M.-O. Lampert
Canberra, France
NPO2-96 Development of a New Gas Injection System for the
Linac4 Accelerator at CERN
R. Guida, P. Carri, S. Izquierdo Rosas, J. Lettry, J. Rochez, A. Wasem
CERN, Switzerland
NPO2-97 Developments Towards a U.S. Short Baseline Reactor
Antineutrino Oscillation Experiment
N. Bowden, Lawrence Livermore National Laboratory, USA
On behalf of the U.S. Short Baseline Reactor Experiment Interest Group
NPO2-98 Integrated High Voltage Photo-Voltaic Device for
Radiation Detector Systems
J. Segal1, C. Kenney1, M. Breidenbach1, G. Gratta2, A. Tomada1, C.-E.
Chang2
1
SLAC National Accelerator Laboratory, USA; 2Stanford, USA
NPO2-99 Integrated, Self-Sealing, Micro-Fabricated Coolant
Channels
A. Tomada, P. Grenier, M. Oriunno, S. Dong, C. Kenney, J. Hasi, SLAC, USA;
J. Van Heijningen, NIKHEF, Netherlands
168 Wednesday - NSS Poster Presentations Wednesday
Synchrotron Radiation and FEL
Instrumentation
NPO2-100 Evaluation of CdTe Pixel Detector with 3-Channel
Window Comparator
H. Toyokawa, T. Hirono, S. Wu, M. Kawase, M. Sato, K. Kajiwara, T.
Miyazawa, Japan Synchrotron Radiation Research Institute, Japan; A.
Suenaga, Howa Sangyo Co., Ltd., Japan; H. Ikeda, Japan Aerospace
Exploration Agency, Japan
NPO2-101 Development of CdTe Strip Sensor Assembled on
Charge-Signal Readout Interposer Board
M. Kawase, H. Toyokawa, T. Hirono, S. Wu, M. Sato, K. Osaka, T.
Matsumoto, Japan Synchrotron Radiation Research Institute, Japan;
A. Suenaga, Howa Sangyo Co., Ltd., Japan; H. Ikeda, Japan Aerospace
Exploration Agency, Japan
NPO2-102 Simultaneous Fast Scanning Quadrimodal X-Ray
Tomography at SOLEIL
K. Medjoubi1, A. Bonissent2, N. Leclercq1, F. Langlois1, P. Mercere1, A.
Somogyi1
1
Synchrotron SOLEIL, France; 2CPPM, Aix-Marseille Universit and CNRS/
IN2P3, France
NPO2-103 A MTCA.4 Clock and Control System for the EuXFEL 2-D
Detectors: Final Hardware and Firmware
E. Motuk, M. Warren, M. Wing, University College London, UK
NPO2-104 Response of the CVD Single Diamond Detector for 8GeV
Electron Beam
T. Shimaoka1, R. Satake1, J. H. Kaneko1, H. Aoyagi2, D. Miyazaki1, T. Aoki2,
K. Fukami2, S. Suzuki2, C. Mitsuda2, A. Chayahara3, S. Shikata3
1
Hokkaido University, Japan; 2JASRI/SPring-8, Japan; 3Institute of Advanced
Industrial and Science Technology, Japan
NPO2-105 Calibration of the Non-Linear System Response of
Prototypes of the DSSC Detector for the European XFEL
G. Weidenspointner1,2, R. Andritschke1,2, D. Moch1,2, M. Porro1,2, S.
Schlee1,2, S. Aschauer3, F. Erdinger4, P. Fischer4, M. Kirchgessner4, J.
Soldat4, K. Hansen5
1
HLL MPG, Germany; 2MPE, Germany; 3PNSensor, Germany; 4Universitaet
Heidelberg, Germany; 5DESY, Germany
NPO2-106 Highly Robust, High Iintensity White Synchrotron X-Ray
Beam Monitor
M. Kocsis, P. Berkvens, E. Bruer-Krisch, A. Bravin, T. Brochard, C. Nemoz,
M. Renier, P.-H. Fournier, F. Esteve
European Synchrotron Radiation Facility, France
NPO2-107 An Energy Dispersive Bent Laue Monochromator for
K-Edge Subtraction Imaging
N. Samadi, Y. Zhu, D. Chapman, University of Saskatchewan, Canada
NPO2-108 Laboratory Infrastructure for Detector Calibration and
Characterization at the European XFEL
J. Sztuk-Dambietz, S. Hauf, A. Koch, M. Kuster, M. Turcato
European XFEL GmbH, Germany
NPO2-109 Electron Injection in Multi-Linear Silicon Drift Detectors
A. Castoldi1, C. Guazzoni1, D. Mezza1, L. Chang1, R. Hartmann2, L.
Strueder2,3
1
Politecnico di Milano and INFN, Italy; 2PNSensor GmbH, Germany;
3
Universitt Siegen, Germany
NPO2-110 Gated, Dual-Counter X-Ray Detector for Pump-Probe
Science
C. J. Kenney1, A. Dragone1, S. Herrmann1, G. A. Carini1, J. D. Segal1, J. Hasi1,
R. Bradford2, T. Madden2, A. Mehta1, D. A. Reis1, A. Lindenberg1, G. Haller1
1
SLAC National Accelerator Laboratory, USA; 2Argonne Nat. Lab., USA
NPO2-111 Use of Silicon Drift Detectors at the LCLS
A. Tomada, G. Blaj, G. A. Carini, S. Herrmann, C. J. Kenney, P. Hart, J. Pines,
G. L. Dakovski, S. Nelson, J. B. Thayer, S. Song, M. Chollet
Wednesday
NPO2-112 High Rate X-Ray Fluorescence Mapping Exploiting RealTime Pulse Pile-up Recovery
P. A. B. Scoullar1, M. D. deJonge2, D. Howard2, A. Chow1, D. Paterson2
1
Southern Innovation, Australia; 2Australian Synchrotron, Australia
NPO2-113 Measurements at Synchrotrons and FELs: Some
Differences Observed with the CSPAD.
G. A. Carini1, S. C. Herrmann1, P. A. Hart1, J. Pines1, A. Dragone1, G. Blaj1,
M. Collet2, C. J. Kenney1, S. Nelson1, S. Song2, D. Zhu2
1
SLAC National Accelerator Laboratory, USA; 2LCLS, SLAC National
Accelerator Laboratory, USA
NPO2-114 CSPAD Upgrades at LCLS
S. Herrmann, P. Hart, A. Dragone, D. Freitag, R. Herbst, J. Pines, M.
Weaver, G. Blaj, G. Carini, C. Kenney, G. Haller
Astrophysics and Space Instrumentation
NPO2-115 Front-End Electronics System Design of HEPP Onboard
the CSES Satellite
W. Jiang, Institute of High Energy Physics, CAS, China
On behalf of the HEPP-FEE Group
NPO2-116 The Novel APXS X-Ray Spectrometer Boarded on
Chang’E3 Satellite
H. Wang, Institute of high energy physics of Chinese Academy of sciences, China
On behalf of the APXS X-ray Spectrometer Project Group
NPO2-117 The Silicon Matrix: a Prototype for the Dark Matter
Particle Explorer
W. X. Peng, R. R. Fan, F. Zhang, Y. F. Dong, K. Gong, S. Yang, D. Y. Guo, J. Z.
Wang, M. Gao, X. H. Liang, J. Y. Zhang, X. Z. Cui, Y. Q. Liu, H. Y. Wang
Institute of High Energy Physics , Chinese Academy of Sciences, China
NPO2-118 Characterization of High Count Rate Capability of
Solar X-Ray Monitor on-Board Chandrayaan-2: The Second Indian
Mission to the Moon
M. Shanmugam, S. V. Vadawale, Y. B. Acharya, A. Patel, S. K. Goyal
Physical Research Laboratory, India
NPO2-123 Readout of the UFFO Slewing Mirror Telescope for the
Measurement the UV/Optical Afterglow from Gammaray Burst
J. E. Kim1, H. Lim2, J. W. Nam3, S. Brandt4, C. Budtz-Jrgensen4, A. J. CastroTirado5, P. Chen3, B. Grossan6, M.-H. A. Huang7, S. Jeong8, A. Jung1, S.-W.
Kim9, J. Lee8, E. V. Linder6, T.-C. Liu3, G. W. Na1, M. I. Panasyuk10, I. H.
Park8, J. Ripa8, V. Reglero11, G. F. Smoot6, N. Vedenkin10, S. I. Svertilov10, I.
Yashin10
1
Ewha Womnas University, Korea; 2Dongnam Institute of Radiological &
Medical Sciences, Korea; 3National Taiwan University, Taiwan; 4Technical
University of Denmark, Denmark; 5Instituto de Astrofisica de Andalucia,
Spain; 6University of California at Berkeley, USA; 7National United
University, Taiwan; 8Sungkyunkwan University, Korea; 9Yonsei University,
Korea; 10Moscow State University, Russia; 11Universidad de Valencia, Spain
NPO2-119 Detector Developments for the SIXS Instrument on
BepiColombo
H. Andersson, K. Kuparinen, Oxford Instruments Analytical Oy, Finland;
J. Lehti, J. Saari, E. Valtonen, Aboa Space Research Oy, Finland; A.
Lehtolainen, L. Alha, J. Huovelin, R. Vainio, University of Helsinki, Finland
NPO2-120 Optical Performance of UFFO Slewing Mirror Telescope
H. Lim, Dongnam Institute of Radiological & Medical Sciences, Korea
On behalf of the UFFO Collaboration
NPO2-121 Experimentation of a Detector Prototype Based on
LaBr3(Ce) Scintillator Readout by SDD Arrays for Gamma-Ray
Astronomy Applications.
R. Quaglia1,2, P. Busca1,2, A. D. Butt1,2, C. Fiorini1,2, M. Occhipinti1,2, R.
Peloso1,2, G. Giacomini3, C. Piemonte3, A. Picciotto3, N. Nelms4, B. Shortt4
1
Politecnico di Milano, Italy; 2INFN Sezione di Milano, Italy; 3Fondazione
Bruno Kessler, Italy; 4European Space Agency, ESTEC, The Netherlands
NPO2-122 Performance Improvement of an Electron-Tracking
Compton Camera by a New Track Reconstruction Method
S. Komura1, T. Tanimori1, H. Kubo1, A. Takada2, J. Parker1, T. Mizumoto1,
Y. Mizumura3, S. Sonoda4, D. Tomono1, T. Sawano1, K. Nakamura1, Y.
Matsuoka1, Y. Sato1, S. Nakamura1, K. Miuchi5, S. Kabuki6, Y. Kishimoto7, S.
Kurosawa8, S. Iwaki1, M. Tanaka9, M. Ikeno9, T. Uchida9
1
Department of Physics, Kyoto University, Japan; 2Research Institute for
Sustainable Humanosphere, Kyoto University, Japan; 3Unit of Synergetic
Studies for Space, Kyoto University, Japan; 4Department of Engineering,
Graduate School of Science, Kyoto University, Japan; 5Department of
Physics, Kobe University, Japan; 6Department of Radiation Oncology,
Tokai University, Japan; 7Radiation Science Center, KEK, Japan; 8Institute
for Materials Research, Tohoku University, Japan; 9Institute of Particle and
Nuclear Studies, KEK, Japan
NPO2-124 Development of New Circuit for X-ray Astronomical SOI
Pixel Detector
A. Takeda, the Graduate University for Advanced Studies (SOKENDAI),
Japan; Y. Arai, High Energy Accelerator Research Organization (KEK),
Japan; T. G. Tsuru, T. Tanaka, S. Nakashima, H. Matsumura, Kyoto Univ.,
Japan; T. Imamura, T. Ohmoto, A. Iwata, A-R-Tec Corp., Japan
NPO2-125 Design and Construction of the Multi-Layer SCD for ISSCREAM Experiment.
J. A. Jeon1, H. Y. Lee2, A. H. Park2, J. N. Choi3, J. Lee2, I. H. Park2
1
Ewha Womans University, Korea; 2Sung Kyun Kwan University, Korea;
3
Yonsei University, Korea
NPO2-126 Up down Gamma Discrimination Using the Imaging
Ratio Method with CZT Gamma-Ray Detectors for in Situ and
Remote Sensing Operations
S. F. Nowicki, S. D. Hunter, A. M. Parsons, NASA Goddard Space Flight
Center, USA; H. Chen, Redlen Technologies, Canada
NPO2-127 UBAT Readout Electronics for UFFO Pathfinder
A. H. Park, Sung Kyun Kwan University, Korea
On behalf of the UBAT
NPO2-128 Progress on Large-Scale, Low-Cost Si(Li) Detector
Fabrication for the GAPS Balloon Mission
K. Perez, T. Aramaki, C. Hailey, N. Madden, M. McGregor, G. Tajiri
Columbia University, USA
Computing and Software for Experiments
NPO2-129 Software Using Collaborative Network Analysis Tools to
Monitor High Tech R&D for Scientific Research and Trace Its Impact
J.-M. H. Le Goff, S. Fragkiskos, E. Skogstad, CERN, Switzerland
NPO2-130 Command-Based Interface of Importance Biasing
Technique Using Geant4 for Shielding Applications
S. Oyama1, T. Aso1, M. Shimaoka2, K. Amako3, H. Yoshida4, T. Sasaki3
1
Nagaoka University of Technology, Japan; 2Nara National College of
Technology, Japan; 3High Energy Accelerator Research Organization(KEK),
Japan; 4G4AI-JAPAN, Japan
NPO2-131 The NA62 Large Angle Veto DataBase
E. Leonardi, I.N.F.N., Italy
On behalf of the NA62 LAV Working Group
NPO2-132 Geant4 Studies of the CNAO Facility System for
Hadrontherapy Treatment of Uveal Melanomas
A. Rimoldi, Universita’ di Pavia & INFN, Italy
On behalf of the Pavia Group
NPO2-133 Study of Central Control System for FAST
J. Wang, P.-Y. Tang, J.-J. Liu, M.-C. Luo, W.-Q. Wu, G. Jin
Univ. of Sci. & Tech. of China, P.R.China
NPO2-134 Data Acquisition Framework at SACLA
K. Okada, T. Abe, A. Amselem, Y. Furukawa, Y. Joti, T. Kameshima, T.
Sugimoto, M. Yamaga, R. Tanaka
Japan Synchrotron Radiation Research Institute (JASRI), Japan
Wednesday
NPO2-135 The Software Library of the Coming Belle II Experiment
and its Simulation Package
D. Y. Kim, Soongsil University, South Korea, On behalf of the Belle II
NPO2-136 Laboratory XRF Measurements Using Alpha Particle
X-Ray Spectrometer of Chandrayaan-2 Rover: Comparison with
GEANT4 Simulation Results
S. K. Goyal, M. Shanmugam, S. V. Vadawale, D. Banerjee, Y. B. Acharya, S.
V. S. Murty, Physical Research Laboratory, India
NPO2-137 Study of 3D Visualization of FAST Active Reflector Based
on OpenGL and EPICS
M.-C. Luo, W.-Q. Wu, P.-Y. Tang, J.-J. Liu, J. Wang,
Univ. of Sci. & Tech. of China, P.R.China
NPO2-138 Geant4 Based Simulations for Novel Neutron Detector
Development
T. Kittelmann1, I. Stefanescu2, K. Kanaki1, R. Hall-Wilton1, K. Zeitelhack2
1
European Spallation Source ESS AB, Sweden; 2FRM II, Technische Universitt
Mnchen, Germany
NPO2-139 FPGA Based Extension to the Multichannel Pixel
Readout ASIC
P. Maj, AGH University of Science and Technology, Poland
NPO2-140 Masterclass - Hands on CERN - Rio De Janeiro
M. Begalli1, M. Medina2, G. R. Queiroz1, J. C. Reis1, V. Oguri1
1
State University of Rio de Janeiro, Brazil; 2Colgio Pedro II, Brazil
NPO2-141 Validation of Geant4 Electron Pair Production by Photons
M. Begalli, State University of Rio de Janeiro, Brazil; G. Hoff, Pontifcia
Universidade Catlica do Rio Grande do Sul, Brazil; M. G. Pia, P. G. Saracco,
INFN-Sezione di Genova, Italy
NPO2-142 Simulation Study of the Shielding of Neutrons from 252Cf
Source
S.-I. Bak, S.-W. Hong, D. Kim, J. W. Shin, T. S. Park,
SungKyunKwan University, Korea
NPO2-143 Quantitative Comparison of Liquid Scintillation
Counting Spectra
G. V. Gerganov, K. K. Mitev, Sofia University, “St. Kliment Ohridski”, Bulgaria
NPO2-144 The ELisA Facility - RESTful API and Client Libraries
NPO2-145 Simulation Tools for Detector Performance and
Calibration Sources at European XFEL
S. Hauf1, M. Bohlen1, B. Heisen1, A. Joy2, A. Koch1, M. Kuster1, J. SztukDambietz1, M. Turcato1, M. Wing2, C. Youngman1
1
European X-ray Free Electron Laser Facility GmbH, Germany; 2University
College London, U.K.
NPO2-146 The CMS Data Quality Monitoring Software: Experience
and Future Improvements
F. De Guio, University of Milano-Bicocca and INFN, Italy
NPO2-147 Performance and Development for the Inner Detector
Trigger Algorithms at ATLAS
NPO2-148 A Grid Workflow Manager for Mid-/small VOs
L. Tomassetti1, A. Fella2, E. Luppi1, M. Manzali3
1
University of Ferrara and INFN, Italy; 2LAL/CNRS, INFN Pisa and University
of Ferrara, Italy; 3INFN CNAF and University of Ferrara, Italy
NPO2-149 Dirac Suite: Integration of a General Purpose
Bookkeeping Database in Dirac
M. J. Chrzaszcz1, C. De Santis2, G. Donvito3, A. Fella4, R. Z. Grzymkowski1,
B. Santeramo3, M. Zdybal5, M. Manzali6, E. Luppi7, L. Tomassetti7
1
Polish Academy of Sciences (PL), Poland; 2Universita degli Studi di Roma
Tor Vergata, Italy; 3INFN Bari, Italy; 4INFN Pisa, CNRS/LAL, University of
Ferrara, Italy; 5Institute of Nuclear Physics, Polish Academy of Science,
Poland; 6INFN-CNAF, Italy; 7INFN-Ferrara, Italy
NPO2-150 Simulation of ATLAS Inner Tracker for the HighLuminosity LHC Upgrade
S. Burdin, The University of Liverpool, UK
Radiation Damage Effects and Radiation Hard
Devices
NPO2-151 Radiation Induced Damage by X-Ray on SiPMs
E. Garutti, R. Klanner, University of Hamburg, Germany; C. Xu, DESY,
Germany
NPO2-152 Inorganic Scintillation Crystals after Heavy Irradiation
R. Mao, Y. Li, C. Wu, Y. Zhu, Z. Ge, Shanghai Institute of Ceramics, Chinese
Academy of Sciences, China; F. Yang, L. Zhang, R.-Y. Zhu, California
Institute of Technology, USA
NPO2-153 Effect of Gamma Radiation on Structure of Indium
Oxide Thin Films
S. L. Sharma, A. Dey, T. K. Maity, Indian Institute of Technology, Kharagpur,
INDIA; G. Chourasiya, J. C. Vyas, BARC, INDIA
NPO2-154 Dynamic Performance of Radiation Tolerant 12B SAR
ADC Designed with DGA MOSFET
T. H. Kim, H. C. Lee, KAIST, Korea
NPO2-155 Characterization of COTS ADC Radiation Properties for
ATLAS LAr Calorimeter Readout Upgrade.
D. O. Damazio, Brookhaven BNL, USA
On behalf of the Atlas Liquid Argon Calorimeter Group
NPO2-156 Radiation Effects on Fiber Bragg Grating Temperature
Sensors Written in a Ge-Doped Core Silica
J. Y. Kim, N. H. Lee, H. K. Jung, Korea Atomic Energy Research Institute
(KAERI), Republic of Korea; Y. W. Kim, W. T. Han, Gwangju Institute of
Science and Technology, Republic of Korea
NPO2-157 Investigation of Performance Degradation of Silicon
Photo-Multiplier in Proton Therapy Environment and Recovery
with Different Heat Annealing Methods
X. Sun, K. Lou, X. R. Zhu, M. Gillin, Y. Shao
UT MD Anderson Cancer Center, United States
NPO2-158 Comparative Studies of Radiation Damage Effects in
Silicon Photo Multipliers
M. Andreotti1, W. Baldini2, R. Calabrese1, G. Cibinetto2, A. Cotta
Romusino2, E. Luppi1, R. Malaguti2, V. Santoro1, G. Tellarini1, L.
Tomassetti1, A. Montanari3, N. Tosi4, A. Pietropaolo5, C. De Donato6
1
Universita’ di Ferrara, Italy; 2INFN-Ferrara, Italy; 3INFN-Bologna, Italy;
4
Universita’ di Bologna, Italy; 5Enea, Italy; 6Universita’ di Roma Tor Vergata, Italy
NPO2-159 Radiation Hardness of the CLARO-CMOS, a Prototype
ASIC for Low Power and Fast Single-Photon Counting in 0.35
micron CMOS Technology
M. Fiorini1, M. Andreotti1, W. Baldini1, R. Calabrese1, P. Carniti2, A. Cotta
Ramusino1, A. Giachero 2, C. Gotti2, E. Luppi1, M. Maino2, R. Malaguti1, G.
Pessina2, L. Tomassetti1
1
Universita’ degli Studi di Ferrara and INFN Sezione di Ferrara, Italy;
2
Universita’ degli Studi di Milano Bicocca and INFN Sezione di Milano
Bicocca, Italy
NPO2-160 Study on Accelerated ELDRS Simulation
D. Wei1,2, L. Wu1, G. Qi1, R. Diyuan1, M. Wuying1,2
1
University of Chinese Academy of Sciences, China; 2Xinjiang Institute of
Physics & Chemistry & Chinese Academy of Sciences, China
NPO2-161 Ionizing Radiation Damage in Scientific CCDs and
Commercial CCDs
Y.-D. Li, Q. Guo, L.-Y. Ma, B. Wang, Xinjiang Technical Inst.of Physics and
Chemistry of Chinese Academy Sciences, China; C.-M. Wang, Photoelectric
Technology Research Institute of Chongqing, China
Wednesday
Digitalization, Acquisition, and Signal
Processing Technologies
NPO2-162 A Modular, Versatile, Low Cost Readout System for
Cosmic Ray Telescopes of Multi-Gap Resistive Chambers
E. Bossini, R. Paoletti, University of Siena and INFN Pisa, Italy
NPO2-163 FPGA Electronics for Dual Head PET Detectors
E. Fysikopoulos1,2, M. Georgiou2,3, N. Efthimiou4, S. David2, G. Loudos2, G.
Matsopoulos1
1
National Technical University of Athens, Greece; 2Technological
Educational Institution of Athens, Greece; 3University of Thessaly, Greece;
4
University of Patras, Greece
NPO2-164 “Electrical” time Resolution.
A. Ronzhin, Fermi National Accelerator Laboratory, USA
NPO2-165 Front End Strategy for the Daq System of a Kinetic
Inductance Detector.
P. Branchini, L. Capasso, A. Budano, INFN, Italy; D. Marchetti, Roma Tre
University, Italy
NPO2-166 Digitally Controlled Generation of Time Correlated
Pulses
A. Abba, F. Caponio, A. Cusimano, G. Ripamonti, A. Geraci
NPO2-167 Multichannel Digital Pulse Processor for Bi-Dimensional
Detector Arrays
A. Cusimano, A. Abba, F. Caponio, A. Geraci, G. Ripamonti
NPO2-168 Implementation of USB 3.0 Bus Controller in FPGA for
Data Transfer in Multi-Channel Applications
A. Abba, A. Cusimano, F. Caponio, G. Ripamonti, A. Geraci
NPO2-169 Design of a Common Readout Prototype Board
Y. Yang, G. De Lentdecker, K. Hanson, A. O Murchadha, T. Meures, M.
Korntheuer
university libre de Brussels, Belgium
NPO2-170 Upgrade of the TOTEM DAQ Using the Scalable Readout
System (SRS)
A. Fiergolski1,2, M. Quinto3,2, F. Cafagna2, E. Radicioni2
1
Warsaw University of Technology, Poland; 2INFN, Italy; 3University of Bari,
Italy
NPO2-171 Quadratic Programming Time Pickoff Method for MVT
Digitizer in PET
Z. Deng1,2, Y. Li1,2, Q. Xie1,2
1
Wuhan National Laboratory for Optoelectronics, China; 2Huazhong
University of Science and Technology, China
NPO2-172 A FPGA-Based Data Acquisition System for GEM Array
Detector
W.-W. Yen, H.-P. Chou, National Tsing Hua University, Taiwan
NPO2-173 Radiation Tolerance and Mitigation Strategies for
FPGA:s in the ATLAS TileCal Demonstrator
H. Akerstedt, Stockholm University, Sweden
On behalf of the ATLAS Tile Calorimeter Group
NPO2-174 Study of Dynamic Data Acquisition and Processing in a
Novel X-Ray Process Tomography System for Rapid Rotating AeroEngine
M. Chang1,2, Y. Xiao1,2, Z. Chen1,2
1
Imaging, China
NPO2-175 Development of a Fast Data Taking System for a New
Cosmic Ray Detector (SciCRT) at Mt. Sierra Negra, Mexico
Y. Sasai, T. Kawabata, Y. Itow, Y. Matsubara, T. Sako, Y. Nagai, D. Lopez,
T. Itow, G. Mitsuka, Nagoya University, Japan; K. Munakata, C. Kato, T.
Miyazaki, S. Yasue, Shinshu University, Japan; S. Shibata, H. Takamaru,
Chubu University, Japan; K. Kojima, Aichi Institute of Technology, Japan;
K. Watanabe, Japan Aerospace Experiment Agency, Japan; H. Tsuchiya,
Japan Atomic Energy Agency, Japan; T. Koi, SLAC, USA; E. Ortiz, J. F. ValdesGalicia, O. Musalem, A. Hurtado, L. X. Gonzlez, R. Garcia, M. Anzorena,
Universidad Nacional Autnoma de Mexico, MEXICO
NPO2-176 Investigation of an ADC Based Signal Processing and
Design of an ATCA Data Acquisition System Unit for the Straw Tube
Tracker at PANDA
L. Jokhovets1, M. Drochner1, A. Erven1, W. Erven1, G. Kemmerling1, H.
Kleines1, P. Kulessa1,2, P. Marciniewski3, M. Mertens1, H. Ohm1, T. Preuhs1,
K. Pysz1,2, J. Ritman1, V. Serdyuk1, S. van Waasen1, P. Wintz1, P. Wuestner1
1
Forschungszentrum Juelich, Germany; 2Institute of Nuclear Physics PAN,
Poland; 3Uppsala University, Sweden
NPO2-177 Data Acquisition System for the Readout of SiPM Arrays
C. Solaz, J. Barrio, G. Llosa, V. Stankova, M. Trovato, C. Lacasta
Instituto de Fisica Corpuscular (IFIC - UVEG/CSIC), Spain
NPO2-178 Signal Processing for the ATLAS Liquid Argon
Calorimeter: Studies and Implementation
D. Oliveira Damazio, Brookhaven BNL, USA
NPO2-179 A Linear Optimal Filtering Approach for Pileup Noise
Removal in High-Rate Liquid Ionization Calorimeters
H. Xu, Y. Chiu, University of Texas at Dallas, USA; D. Gong, Southern
Methodist University, USA
NPO2-180 A New Versatile and Cost Effective Readout System for
Small to Medium Scale Gaseous and Silicon Detectors
D. Calvet, CEA Saclay, FRANCE
NPO2-181 A Multi-Core FPGA-Based Clustering Algorithm for RealTime Image Processing
NPO2-182 Digital Signal Processing Techniques for HPGe Detectors
S. Riboldi1,2, V. D’Andrea2,3, C. Cattadori2
1
Universita’ degli Studi di Milano, Italy; 2I.N.F.N., Italy; 3Universita’
dell’Aquila, Italy
NPO2-183 Development of the Central Processing Unit for SpaceBorne Gamma-Ray Burst Polarimeter, POLAR
D. Rybka, Paul Scherrer Institut, Switzerland
NPO2-184 High Density Interconnection Between Front-End and
Peripheral Electronics in Vertex Detectors
M. Citterio, N. Neri, F. Palombo, F. Sabatini
INFN - Milano, Italy
NPO2-185 Development of Repeating Event Rejection Logic in the
LYSO PET Detector Using PMT-Quadrant-Sharing Technique
Z. Lv1,2, G. Gong1,2, S. Huang3, Y. Liu1,2
1
Ministry of Education, China; 2Tsinghua University, China; 3NucMed
Technology Ltd., China
NPO2-186 On-Line Digital Pulse-Shape Analysis for Segmented
Semiconductor Detectors
T. Fukuchi1, S. Motomura1, T. Ida2, H. Haba3, Y. Watanabe1, S. Enomoto1,2
1
Center for Life Science Technologies, RIKEN, Japan; 2Okayama University,
Japan; 3Nishina Center for Accelerator-Based Science, RIKEN, Japan
NPO2-187 High-Reliability PCIe Communication for Tiny FPGAs
H. Kavianipour, C. Bohm, Stockholm University, Sweden
NPO2-188 Pulse Shape Discrimination using Analog Integrator and
Bipolar Shaping in DSP based MCA
K. D. Ianakiev, M. L. Iliev, LANL, USA; V. T. Jordanov, LABZY. LCC, USA
NPO2-189 Data Processing Logic for Stacked Wafer-Scale CMOS
Radiation Sensor Network
Y. S. Yang, G. Choi, Texas A&M University, USA
NPO2-190 High Rate Multi-Channel Digital Pulse Processing
Hardware Utilising Advanced FPGA Architectures
P. A. B. Scoullar1, P. M. Grudberg2, C. C. McLean1
1
Southern Innovation, Australia; 2XIA , LLC, USA
Wednesday
Trigger and Front-end Systems
NPO2-191 Common Control and Readout Board for the
Calorimeter and Tracker Front-End Electronics of the SuperNEMO
Experiment
O. Duarte, CNRS / IN2P3 Laboratoire de l’accelerateur Lineaire, France
On behalf of the SuperNEMO Collaboration
NPO2-192 A New Method for Time Measurements Based on a VCO
with 40 ps FWHM Resolution
F. Caponio, A. Abba, A. Geraci, G. Ripamonti, Politecnico di Milano, Italy
NPO2-193 The status of High Speed Trigger Multiplexer Module
with Aurora Protocol implemented on Arria II FPGA for the Belle II
Cylindrical Drift Chamber Detector Trigger System
C.-H. Wang1, S. S-M. Liu1, Y. Y-S. Teng1, J.-G. Shiu2, Y.-T. Lai2, C.-S. Lin1
1
National United U., Taiwan; 2National Taiwan U., Taiwan
NPO2-194 A High-Precision Wave Union TDC Implementation in
FPGA
N. Lusardi, F. Caponio, A. Abba, A. Geraci, G. Ripamonti
NPO2-195 The Thin Light Trigger for UA9 Experiment
F. Iacoangeli, G. Cavoto, V. Bocci, INFN, Italy
NPO2-196 CERN Na62 Experiment: Data Flow and Firmware Design
for Common Trigger and Data Acquisition System
E. Pedreschi1,2, B. Angelucci1,2, G. Lamanna2, J. Pinzino1,2, R. Piandani2, M.
Sozzi1,2, F. Spinella2, S. Venditti2
1
University of Pisa, Italy; 2INFN, Italy
NPO2-197 Design of a Portable Test Facility for the ATLAS Tile
Calorimeter Front-End Electronics Verification
H. Y. Kim1, C. Solans2, F. Carrio3, I. Minashvili4, P. Moreno3, R. Reed5, V.
Schettino6, A. Valero3, J. Souza6, G. Usai1
1
University of Texas at Arlington, USA; 2CERN, Switzerland; 3IFIC, Spain;
4
JINR, Russia; 5Wits, South Africa; 6UFRJ, Brazil
NPO2-198 The Associative Memory Boards for the FTK Processor
at ATLAS
NPO2-199 Method for Backplane Data Communication with the
VME Rear Transition Modules Developed for the ATLAS FTK Project
NPO2-200 A Full Front End Chain for Drift Chambers
M. Cascella1,2, F. Grancagnolo1, G. Tassielli3,4, A. Pepino2, M. Panareo2
1
University, Italy
NPO2-201 Advanced Power Solution for Mixed Signal Application
of the European XFEL Timing System
A. Hidvegi1, P. Gessler2, H. Kay3, V. Petrosyan3, G. Petrosyan3, L.
Petrossian3, A. Aghababyan3, C. Stechmann3, K. Rehlich3, C. Bohm1
1
Stockholm University, Sweden; 2European X-ray Free Electron Laser Facility
GmbH, Germany; 3Deutsches Elektronen-Synchrotron (DESY), Germany
NPO2-202 Readout of the MPCEX Silicon-Tungsten Calorimeter of
PHENIX Experiment at RHIC
A. Y. Sukhanov, Brookhaven National Laboratory, USA
On behalf of the PHENIX
NPO2-203 Performance of the Trigger-Less Readout for the PANDA
Electromagnetic Calorimeter
M. Kavatsyuk, KVI, University of Groningen, The Netherlands
On behalf of the PANDA collaboration
NPO2-204 The GAP Project - GPU for Realtime Applications in High
Energy Physics and Medical Imaging.
G. Lamanna1, M. Sozzi1, F. Spinella1, E. Pedreschi1, A. Lonardo2, P.
Vicini2, A. Biagioni2, D. Rossetti2, A. Messina2, M. Fiorini3, F. Pantaleo1, R.
Piandani1, P. S. Paolucci2
1
INFN Pisa, Italy; 2INFN Roma, Italy; 3INFN Ferrara, Italy
Analog and Digital Circuits
NPO2-205 The Design of a Subnanosecond Time Resolution
Readout System for Pulsar-Based Navigation
X. Cheng1, M. Zeng2, X. Ouyang1, W. Pan2
1
North China Electirc Power University, China; 2Tsinghua University, China
NPO2-206 Time Interleaved ADCs for High Speed High Resolution
Data Acquisition System
T. Xue, G. H. Gong, J. M. Li, H. Gong, M. Zeng, X. W. Wang
NPO2-207 High-speed Arbitrary Waveform Generator Based On FPGA
H. Zhang, P. Tang, C. Luo, K. Cui, S. Lin, G. Jin, J. Wang
University of Science and Technolog of China, China
NPO2-208 FlexToT - Current Mode ASIC for Readout of Common
Cathode SiPM arrays
A. Comerma1, D. Gascon1, L. Freixas2, L. Garrido1, J. Marin2, J. M. Perez2,
G. Martinez2, J. M. Fernandez-Varea1, P. Rato2, J. Castilla2, J. M. Cela2, I.
Sarasola2
1
UNIVERSITAT DE BARCELONA - ICC, Spain; 2CIEMAT, Spain
NPO2-209 Dual Stage Time-over-Threshold Processing Chain for
Silicon Detectors with Large Capacitances
K. Kasinski, R. Kleczek, P. Grybos, R. Szczygiel
AGH University of Science and Technology, Poland
NPO2-210 Development of an ASIC for the Readout of CZT/CdTe
Radiation Detectors in Space
D. Meier, J. E. Ramstad, A. Hasanbegovic, S. Azman, J. Talebi, M. A. Altan,
H. K. O. Berge, P. Pahlsson, C. Gheorghe, T. M. Johansen, T. Odegaard, G.
Maehlum, Integrated Detector Electronics AS, Norway
NPO2-211 Development of an ASIC for Charged Particle Counting
with Silicon Radiation Detectors
D. Meier, S. Azman, J. E. Ramstad, A. Hasanbegovic, J. Talebi, M. A. Altan,
H. K. O. Berge, P. Pahlsson, C. Gheorghe, T. M. Johansen, T. Odegaard, G.
Maehlum
Integrated Detector Electronics AS, Norway
NPO2-212 FADC Electronics Design for HPGe Detector
T. Xue, M. Zeng, G. H. Gong, J. M. Li, H. Gong, X. W. Wang
NPO2-213 Development of a Digitalized Position Decoder Circuit
M. Cho, D. Lee, D.-U. Kang, H. Yoo, M. S. Kim, K. Park, H. Kim, J. Kim, Y.
Kim, H. Kim, G. Cho, KAIST, Republic of Korea
NPO2-214 A Novel Picoseconds Optical Pulse Source for FreeSpace Decoy-State Quantum Key Distribution
W. Chen, wei chen, china
NPO2-215 Development of an ASIC with Dynamic Time-overThreshold Method for a Si PIN Photodiode Compton Camera
T. Orita, K. Shimazoe, H. Takahashi
NPO2-216 Low Noise X-Ray Synchronous Photon Counting Method
with High Flux-Linearity
K.-H. Lee, J. Kim, Y. Kim, D.-K. Yoon, J.-C. Park, C. Kim
Samsung Advanced Institute of Technology, South Korea
NPO2-217 The CLARO ASIC: Design and Performance of Prototype
Integrated Circuits for Fast Single Photon Counting at Low Power
P. Carniti1, A. Cotta Ramusino2, C. Gotti1, M. Maino1, R. Malaguti2, G.
Pessina1
1
INFN and Univ. Milano Bicocca, Italy; 2INFN and Univ. Ferrara, Italy
NPO2-218 Flash ADCs for Multichannel Integrated Systems in
Submicron Techonlogy
P. Otfinowski, P. Grybos,AGH University of Science and Technology, Poland
NPO2-219 TOT_AL: an ASIC for TOF and DOI Measurement with
SiPM Matrices
F. Licciulli1,2, F. Ciciriello1, F. Corsi1,2, C. Marzocca1,2, M. G. Bisogni2
1
Politecnico di Bari, Italy; 2Institute of Nuclear Physics, Italy
Wednesday
NPO2-220 Fast Readout ASIC for Si-Strip Detector in the J-PARC
Muon g-2/EDM Experiment and Other Related Applications
K. Ueno1, H. Ikeda2, M. Ikeno1, T. Kohriki1, T. Mibe1, S. Nishimura3, T.
Uchida1, O. Sasaki1, N. Saito1, M. Tanaka1
1
KEK, Japan; 2JAXA, Japan; 3The University of Tokyo, Japan
NPO2-221 Design and Performance of a System in Package for TOF
Applications
R. Bugalho1, M. D. Rolo1, C. Gaston1, R. Silva1, R. Wheadon2, A. Rivetti2, S.
Tavernier3, J. Varela1
1
LIP - Lab. de Instrumentao e Fsca Experimental de Partculas, Portugal;
2
INFN - Istituto Nazionale di Fisica Nucleare, Italy; 3VUB - Vrije Universiteit
Brussel, Belgium
NPO2-222 Characterization of a Large Scale DNW MAPS Fabricated
in a 3D Integration Process
A. Manazza1, L. Gaioni1, M. Manghisoni1,2, L. Ratti1,3, V. Re1,2, G. Traversi1,2,
C. Vacchi3
1
INFN, Italy; 2University of Bergamo, Italy; 3University of Pavia, Italy
NPO2-223 A Dual Inductor Transimpedance Amplifier for
Bandwidth and Gain Enhancement with Gate Noise Suppression
for High Speed Nuclear Source Measurement
I. Kwon, T. Kang, M. D. Hammig, University of Michigan, USA
NPO2-224 Alternative Circuit Topologies for Charge Preamplifiers
and Pulse Shapers
G. Panjkovic, freelance consultant - electronics, Australia
NPO2-225 The Analog Channel for the Readout of the Outer Layers
of the SuperB SVT
B. Nasri1,2, C. Fiorini1,2, L. Bombelli1,2
1
Politecnico di Milano, Italy; 2INFN, Italy
NPO2-226 A Cryogenic and Low Loise Front End Electronics for
High Detector Capacitance
E. Bechetoille, H. Mathez, IPNL CNRS/IN2P3 MICRHAU, FRANCE
NPO2-227 PEALL: a 12-Bit, 40-MSPS, Power Efficient and Low
Latency SAR ADC
D. Dzahini, LPSC-IN2P3 Grenoble, FRANCE
NPO2-228 Discriminators in 65 Nm CMOS Process for High
Granularity, High Time Resolution Pixel Detectors
L. Ratti1,2, M. Manghisoni3,2, V. Re3,2, G. Traversi3,2
1
University of Pavia, Italy; 2INFN, Italy; 3University of Bergamo, Italy
NPO2-229 Characterization Results and First Applications of KlauS
- an ASIC for SiPM Charge and Fast Discrimination Readout
K. Briggl, W. Shen, T. Harion, M. Dorn, H.-C. Schultz-Coulon
KIP, Germany
NPO2-230 Design and Preliminary test of the Photo-Detector
Module Readout System for a Prototype of the JEM-EUSO
Telescope on Telescope Array Site
A. Jung, Ewha Womans University, Republic of Korea
On behalf of the JEM-EUSO Collaboration
NPO2-231 A Gm-Boosted CMOS Readout Front-End for SiPM
Detectors
J. Guo, S. Dolinsky, G. Fu, C. Kim, J. Malaney, D. McDaniel, W. Peterson
General Electric, USA
NPO2-232 Dedicated Readout ASIC for Dual Modality Probe
M. Galasso1,2, A. Fabbri1,2, V. Orsolini Cencelli1,2, P. Bennati3,2, M. N. Cinti3,2,
R. Pani3,2, F. de Notaristefani3,2
1
University of Roma Tre, Italy; 2INFN, Italy; 3University of La Sapienza, Italy
NPO2-233 FPGA Based Phase Detector for High-Speed Clocks with
Pico-Seconds Resolution
A. Hidvegi1, P. Gessler2, H. Kay3, V. Petrosyan3, G. Petrosyan3, L.
Petrossian3, A. Aghababyan3, C. Stechmann3, K. Rehlich3, C. Bohm1
1
Stockholm University, Sweden; 2European X-ray Free Electron Laser Facility
GmbH, Germany; 3Deutsches Elektronen-Synchrotron (DESY), Germany
Wednesday - RTSD Poster
Presentations
R08 RTSD Poster II
Wednesday, Oct. 30 08:00-10:00 Hall B2
Session Chairs: Ge Yang, Brookhaven National Laboratory, United
States
Anwar M. Hossain, Brookhaven National Laboratory,
United States
The posters of this session are identical to RTSD Poster Session 1.
See list of posters on page 135.
Wednesday - RTSD Poster Presentations 179
Wednesday
Notes
180 Wednesday
Notes
181
Wednesday
Notes
182 Wednesday
Notes
183
07:00
MIC RC2
07:30
08:30
09:00
09:30
10:00
M05: Multi-Modality Systems /
Other Imaging Technologies I
08:00
Thursday, 31 October
GBR 101-102
GBR 103
GBR 104
GBR 105
ASEM 203 A&B
ASEM 208 A&B
Hall E1&E2
Hall B2
N33: DAQ Systems
M06: Simulation and Modeling
/ Tracer Kinetics
Instrumentation III
N32: HEP Applications of
Scintillation Detectors
N34: New Concepts in
Solid-State Detectors II
R11: Alternative Semiconductor
Materials and Detectors
12:30
13:00
13:30
14:00
14:30
15:00
15:30
16:00
16:30
17:00
17:30
18:00
18:30
N44: Trigger Systems
12:00
N46: Synchrotron Radiation and
FEL Instrumentation II
11:30
N40: TDCS and Other Circuits
R14: Neutron Detectors
11:00
GATE Users Meeting
N41: Radiation Damage Effects
and Radiation Hard Devices
N42: Instr. for Experimental
Reactors and Nuclear Power
10:30
M07: Imaging in Radiotherapy
NSS RC2: Calorimetry ...
R13: CdZnTe and CdTe Alloys
M09: Front End and Data
Acquisition Electronics /
Intra-Operative Imaging
M10: Data Corrections and
Quantitative Imaging I
N39: Neutron Detection III :
Applications
R12: Imaging Applications
M08: Signal and Image
Processing
Instrumenation III
N36: Non HEP Scintillator-based
Detectors
N37: Instr. for Homeland Security III: Active Interrogation
N38: Nucl. Instr. III: Imaging, Fission, Monitoring and Security
SimSET and ASIM
N43: HEP and NP Imaging
N45: Software in Action
M11: Emission Tomography
Instrumentation I / High Resolution and Pre-Clinical Imaging
M12: Other Imaging Technologies I / Multi-Modality Systems
M13: Simulation and Modeling
19:00
19:30
STIR Users
meeting
WIE Session
OpenPET
GOLD Reception
Thursday
Hall B2
Hall B2
Hall B2
Hall E5
Hall E4
Hall E3
ASEM 201
184 184
Thursday
Thursday - NSS Oral
Presentations
N31 Astrophysics and Space Instrumentation III
Thursday, Oct. 31 08:00-10:00 GBR 104
Session Chairs: Daniel Haas, SRON Netherlands Institute for Space
Research, Netherlands
Insoo Jun, NASA/JPL, United States
N31-1 (08:00, invited) The Transition Radiation Detector of the
Alpha Magnetic Spectrometer(AMS-02) on the International Space
Station and the Precision Measurement of the Cosmic Ray Positron
Fraction
C. H. Chung, RWTH Aachen University, Germany
On behalf of the AMS-02 Collaboration
N31-2 (08:30) The Silicon-Tungten Tracker of the DArk Matter
Particle Explore (DAMPE) Satellite Mission
X. Wu, University of Geneva, Switzerland
On behalf of the The DAMPE Tracker Collaboration
N31-3 (08:45) Performance of the Charge Detectors of CALET with
Relativistic Ions
P. S. Marrocchesi, University of Siena and INFN-Pisa, Italy
On behalf of the CALET collaboration
N31-4 (09:00) The JEM-EUSO Mission to Explore Ultra-High Energy
Cosmic Rays from Space.
F. S. Cafagna, INFN, Bari unit, Italy
On behalf of the JEM-EUSO Collaboration
N31-5 (09:15) Design, Construction and Performance of the
X-Ray Trigger Telescope for the Space Mission Ultra-Fast Flash
Observatory Pathfinder
J. Lee, Sungkyunkwan University, Korea
On behalf of the UFFO Collaboration
N31-6 (09:30) Dynamic Albedo of Neutrons (DAN) Instrument
Onbaord Mars Science Laboratory (MSL or Curiosity)
I. Jun, NASA/JPL, USA
On behalf of the MSL DAN and MSL Sceince Team
N31-7 (09:45) Ultra-Large Dynamic Range Front-End Electronics
for the Homogeneous and Isotropic Calorimeter of the Space
Experiment GAMMA-400
V. Bonvicini1, G. Orzan1, G. Zampa1, N. Zampa1, O. Adriani1,2, N. Mori1,2, O.
Starodubtsev1,2, E. Vannuccini1,2
1
Istituto Nazionale di Fisica Nucleare (INFN), Italy; 2Universita’ degli Studi di
Firenze, Italy
N32 HEP Applications of Scintillation
Detectors
Thursday, Oct. 31 08:00-10:00 GBR 105
Session Chairs: Paul R. Lecoq, CERN, Switzerland
Ren-Yuan Zhu, California Institute of Technology,
United States
N32-1 (08:00, invited) The CMS Electromagnetic Calorimeter: Its
Performance and Role in the Discovery of the Higgs Boson and
Perspectives for the Future
D. Barney, CERN, Switzerland
Thursday - NSS Oral Presentations 185
Thursday
N32-2 (08:30) Evolution of the Response of the CMS ECAL, R\&D
Studies on New Scintillators, and Possible Design Options for
Electromagnetic Calorimetry at the HL-LHC
M. T. Lucchini, CERN and University of Milano-Bicocca, Switzerland
N32-3 (08:45) LSO/LYSO Crystals for Future HEP Experiments
L. Zhang, R. Mao, F. Yang, R.-Y. Zhu
California Institute of Technology, USA
N32-4 (09:00) The Impact of Proton Induced Radioactivity on the
Lu2SiO5:Ce, Y2SiO5:Ce Scintillation Detectors
E. Auffray1, A. Fedorov2, M. Korjik2, D. Kozlov2, M. Lucchini1,3, V.
Mechinski2
1
CERN, Switzerland; 2Research Institute for Nuclear Problems, Belarus;
3
University of Milano-Bicocca, Italy
N32-5 (09:15) Development of Radiative Decay Counter to Reduce
the Background in the MEG Experiment
Y. Fujii, The University of Tokyo, Japan
N32-6 (09:30) BSO Crystals for the HHCAL Detector Concept
F. Yang, L. Zhang
Crystal Lab, HEP, California Institute of Technology, American
N32-7 (09:45) Quenching Factor Measurements for Alkali Halide
Scintillators
J. Lee, Seoul National University, Korea, Republic of.
On behalf of the KIMS collaboration
N33 DAQ Systems
Thursday, Oct. 31 08:00-10:00 ASEM 203 A&B
Session Chairs: Ryosuke Itoh, KEK, Japan
Masaharu Nomachi, Osaka University, Japan
N33-1 (08:00, invited) AMS Electronics on the International Space
Station
X. Cai, Massachusetts Institute of Technology, USA
On behalf of the AMS Collaboration
N33-2 (08:30) Data Acquisition System of the DEPFET Detector for
Belle II Experiment
D. Levit, I. Konorov, S. Paul, TU Muenchen, Germany; T. Gessler, S. Lange,
D. Muenchow, B. Spruck, W. Kuehn, University of Giessen, Germany; Z. Liu,
Chinese Academy of Sciences, China
N33-3 (08:45) Technological Aspects of the Trigger-Less Readout
Architecture for the LHCb Upgrade at CERN
G. Vouters, LAPP, France
N33-4 (09:00) FPGA-Based, Radiation-Tolerant on-Detector
Electronics for the Upgrade of the LHCb Outer Tracker Detector
A. Pellegrino, NIKHEF Amsterdam / University of Groningen, The
Netherlands
On behalf of the LHCb Outer Tracker collaboration
N33-5 (09:15) BESIII Luminosity Readout Design Based on
Embedded System
J. Zhao, Z.-A. Liu, W. Gong, IHEP, China
N33-6 (09:30) The PET Scanner for Plants at the Brookhaven
National Laboratory
M. L. Purschke1, B. Babst1, M. Budassi2, T. Cao2, J. Fried1, D. Schlyer1, S. S.
Stoll1, P. Vaska1, C. Woody1
1
Brookhaven National Lab, USA; 2Stony Brook University, USA
N33-7 (09:45) The PPT-Module: High-Performance Readout for the
DSSC Detector at XFEL
A. Kugel1, M. Kirchgessner1, J. Soldat1, M. Porro2, T. Gerlach1
1
ZITI, Heidelberg University, Germany; 2Max Planck Institute for
Extraterrestrial Physics, Germany
186 Thursday - NSS Oral Presentations Thursday
N34 New Concepts in Solid-State Detectors II
Session Chairs: Grzegorz W. Deptuch, Fermilab, United States
Gabriella A. Carini, SLAC National Accelerator
N34-1 (08:00) Annihilation of Low Energy Antiprotons in Silicon
Sensor
A. Gligorova, University of Bergen, Norway
On behalf of the AEgIS Collaboration
N34-2 (08:15) Scribe-Cleave-Passivate (SCP) Slim Edge Technology
for Silicon Sensors
V. A. Fadeyev, UCSC, USA
On behalf of the SCP Slim Edge project
N34-3 (08:30) Performance and Properties of Ultra-Thin Silicon
Nitride X-Ray Windows
J. Kostamo1, P. T. Torma1, H. Sipila1,2, M. Mattila1,3, P. Kostamo1, E.
Kostamo1, H. Lipsanen3, C. Laubis4, F. Scholze4, N. Nelms5, B. Shortt5, M.
Bavdaz5
1
HS Foils Ltd, Finland; 2Heikki Sipil Oy, Finland; 3Aalto University, Micronova,
Finland; 4Physikalisch-Technische Bundesanstalt, Germany; 5ESA-ESTEC,
The Netherlands
N34-4 (08:45) High-Temperature Operation of Radiation Detectors
Made of CVD Diamond Single Crystals
D. Miyazaki1, J. Kaneko1, T. Shimaoka1, K. Ueno2, H. Koizumi1, M. Tsubota1,
T. Tadokoro2, H. Kuwabara2, H. Umezawa3, S. Shikata3
1
Hokkaido university, Japan; 2Hitachi.ltd, Japan; 3AIST, Japan
N34-5 (09:00) Characterizing Graphene-Based Field Effect
Transistors for Use as Radiation Detectors
E. Cazalas1, I. Childres2, A. Majcher1, Y. P. Chen2, I. Jovanovic1
1
Pennsylvania State University, USA; 2Purdue University, USA
N34-6 (09:15) Investigation of Self-Assembled PbS Nanocrystal
(NC) Assembly Treated with 1,2-Ethanedithiol and Hydrazine for
Ionizing Radiation Detection Application
G. Kim1, J. M. Pietryga2, M. D. Hammig1
1
University of Michigan, USA; 2Los Alamos National Laboratory, USA
N34-7 (09:30) Timing Resolution Performance Comparison for Fast
and Standard Outputs of SensL SiPM
S. Dolinsky, G. Fu, A. Ivan, GE Global Research, USA
N34-8 (09:45) Characterizing Single- and Multiple-Timestamp
Time of Arrival Estimators with Digital SiPM PET Detectors
L. Gasparini, L. Huf Campos Braga, M. Perenzoni, D. Stoppa
N35 High Energy Physics Instrumenation III
Thursday, Oct. 31 10:30-12:30 GBR 104
Session Chairs: DongHee Kim, Kyungpook National University, South
Korea
N35-1 (10:30, invited) Linear Collider Detectors
K. Kawagoe, Kyushu University, Japan
N35-2 (11:00) Construction and Test of a Large Scale Prototype of
a Silicon Tungsten Electromagnetic Calorimeter for a Future Lepton
Collider
R. Poeschl, CNRS, France
On behalf of the CALICE Collaboration
N35-3 (11:15) Performance of the Large Scale Prototypes of the
CALICE Tile Hadron Calorimeter
M. Reinecke, DESY, Germany
Thursday
N35-4 (11:30) The Time Structure of Hadronic Showers in
Calorimeters with Scintillator and with Gas Readout
F. Simon, Max-Planck-Institut fuer Physik, Germany
N35-5 (11:45) Charged Particle Detection Performances of CMOS
Pixel Sensors Designed in a 0.18 um CMOS Process for Future
Subatomic Physics Experiments
M. Winter, CNRS-IPHC-DRS, France
On behalf of the PICSEL team of IPHC-Strasbourg
N35-6 (12:00) Low-Mass DEPFET Vertex Detectors for Belle II and
ILC
L. Andricek, MPG Halbleiterlabor, Germany
On behalf of the DEPFET Collaboration
N35-7 (12:15) Development and Construction of the Belle II TOP
Counter
K. Suzuki, Nagoya University, Japan
On behalf of the Belle II TOP Group
N36 Non HEP Scintillator-based Detectors
Thursday, Oct. 31 10:30-12:30 GBR 105
Session Chairs: HongJoo Kim, Department of Physics, Kyungpook
National University, South Korea
Etiennette Auffray, CERN, Switzerland
N36-1 (10:30) MPPC Based Scintillation Counters for the Internal
Photon Tagger
H. Kanda, Tohoku University, Japan
On behalf of the NKS2 Collaboration
N36-2 (10:45) Development of Compact Advanced Readout
Electronics for Elpasolites (CAREE)
B. S. Budden, L. C. Stonehill, A. Warniment, N. Dallmann, J. Michel, P.
Stein, S. Storms, D. Coupland,
N36-3 (11:00) Low Background High Efficiency Radiocesium
Detection System Based on PET Technology
S. Yamamoto, Y. Ogata
Nagoya University Graduate School of Medicine, Japan
N36-4 (11:15) A Compact and High Efficiency GAGG Well Counter
for Radiocesium Concentration Measurements
O. Yoshimune, Y. Seiichi
Nagoya University Graduate School of Medicine, Japan
N36-5 (11:30) Development of an Alpha Particle Dust Monitor
based on a Large Area GPS:Ce Scintillator Plates
K. Toi1, J. H. Kaneko1, K. Izaki2, T. Shimaoka1, Y. Tsubota1, Y. Morishita2, M.
Higuchi1
1
Graduate School of Engineering Hokkaido University, Japan; 2Japan
Atomic Energy Agency, Japan
N36-6 (11:45) Light Yield, Angular Distribution and Coincidence
Time Resolution Measurements to Improve Scintillator Simulation
Models.
A. R. Knapitsch, E. Auffray, G. Fornaro, S. Gundacker, K. Pauwels, P. Lecoq
European Organization for Nuclear Research (CERN), Switzerland
N36-7 (12:00) Event Localization in Bulk Scintillator Crystals Using
Coded Apertures
K. P. Ziock1,2, J. B. Braverman2, L. Fabris1, M. J. Harrison1, R. J. Newby1
1
Oak Ridge National Laboratory, USA; 2University of Tennessee, USA
N36-8 (12:15) Enhancing the Depth of Interaction Resolving
Ability Using a Hybrid Layered Fast Neutron Block Detector
X. Zhang1, M. A. Laubach1, J. P. Hayward1,2
1
Tennessee University, USA; 2Oak Ridge National Lab, USA
N37 Instrumentation for Homeland Security
III: Active Interrogation
Session Chairs: John Valentine, Lawrence Berkeley National
Catherine Romano, National Nuclear Security
Administration, United States
N37-1 (10:30) Detection of Fissionable Materials and Contraband
in Cargo Containers
A. Danagoulian, W. Bertozzi, S. E. Korbly, R. J. Ledoux, C. M. Wilson
Passport Systems, Inc., USA
N37-2 (10:45) Active Detection of Shielded Special Nuclear
Material, December 2012 AWE/NRL Steel Shielded Campaign EJ301
Liquid Scintillation Detector Analysis
P. N. Martin, C. Clemett, J. O’Malley, C. Hill, R. Maddock, J. Threadgold
Atomic Weapons Establishment, UK
N37-3 (11:00) 3-D Scanning of Sea Freight Containers Using MeV
X-Rays
M. Firsching, T. O. J. Fuchs, F. Sukowski, C. Schorr, T. Schoen, S.
Schroepfer, U. Hassler, T. Hofmann, N. Reims, K. Tigkos, G. Errmann, M.
Boehnel, S. Kasperl, M. Salamon, N. Uhlmann, R. Hanke
Fraunhofer EZRT, Germany
N37-4 (11:15) Feasibility Study of Time-of-Flight Compton Scatter
Imaging Using a Pulsed X-Ray Source and a CeBr3 Detector
N. Calvert1, M. M. Betcke1, A. N. Deacon2, P. A. McIntosh3, E. J. Morton2, J.
Ollier2, R. D. Speller1
1
University College London, UK; 2Rapiscan Systems, Ltd, UK; 3Science and
Technology Facilities Council, UK
N37-5 (11:30) Neutron Damage in Mechanically-Cooled HighPurity Germanium Detectors for Field-Portable Prompt Gamma
Neutron Activation (PGNAA) Systems
E. H. Seabury, C. D. Van Siclen, C. J. Wharton, A. J. Caffrey, Idaho National
Laboratory, U.S.A.; J. B. McCabe, Ametek AMT-Ortec, U.S.A.
N37-6 (11:45) Active Interrogation of Shielded Fissionable
Material Using a Pulsed Bremsstrahlung Source
A. L. Hutcheson1, B. F. Phlips1, B. V. Weber2, E. A. Wulf1
1
Radiation Detection Section (Code 7654), Naval Research Laboratory, US;
2
Pulsed Power Physics Branch (Code 6770), Naval Research Laboratory, US
N37-7 (12:00) Algorithms for Noise Spectroscopy in High-Energy
Radiographic Imaging Systems
W. G. J. Langeveld, Rapiscan Laboratories, Inc., USA
N38 Nuclear Instrumentation III : Imaging,
Fission, Monitoring and Security
Session Chairs: Tetsuo Iguchi, Nagoya University, Japan
Craig Woody, Brookhaven National Lab, United States
N38-1 (10:30, invited) Novel Approach to Beta-Delayed Neutron
Spectroscopy: Future Plans and Recent Accomplishments
A. Czeszumska1,2, N. D. Scielzo1, R. M. Yee1,2, P. F. Bertone3, F. Buchinger4,
S. A. Caldwell3,5, J. A. Clark3, C. M. Deibel6, J. P. Greene6, S. Gulick4, D.
Lascar3,7, A. F. Levand3, G. Li3,4, E. B. Norman1,2, S. Padgett1, M. Pedretti1, A.
Perez Galvan3, G. Savard3,5, R. E. Segel7, K. S. Sharma3,8, M. G. Sternberg3,5,
J. Van Schelt3,5, B. J. Zabransky3
1
Lawrence Livermore National Laboratory, USA; 2University of California,
Berkeley, USA; 3Argonne National Laboratory, USA; 4McGill University,
Canada; 5University of Chicago, USA; 6Louisiana State University, USA;
7
Northwestern University, USA; 8University of Manitoba, Canada
Thursday
N38-2 (11:00) Neutron Depth Profiling with Multipixel Detectors
J. Vacik, I. Tomandl, Nuclear Physics Institute, Academy of Sciences
of the Czech Republic, Czech Republic; Y. Mora, C. Granja, Institute of
Experimental and Applied Physics CTU, Czech Republic
N38-3 (11:15) Experiments to Improve Uncertainty of the First
Delayed Neutron Group Abundance in Fast Fissions of 238U
H. Chung, D. Rtz, K. Jordan, University of Florida, U.S.A.
N38-4 (11:30) Experimental Characterisation of a Broad Energy
Germanium Detector to Improve Minimum Detectable Activity in
Safety and Security Applications
L. J. Harkness, A. J. Boston, H. C. Boston, D. S. Judson, P. J. Nolan,
University of Liverpool, UK; J. R. Cresswell, A. Adekola, J. Colaresi, J. Cocks,
W. Mueller, Canberra Industries Inc, USA
N38-5 (11:45) Imaging Nuclear Materials with Muon-Induced
Fission
K. N. Borozdin, C. L. Morris, J. O. Perry, J. D. Bacon
N38-6 (12:00) Alpha Coincidence Detection for the Assay of
Actinides
G. A. Warren, M. P. Dion, B. W. Miller, G. Tatishvili
Pacific Northwest National Laboratory, USA
N38-7 (12:15) Reactor Neutrino Spectrum Generated from Nuclear
Data Libraries
T. D. Johnson, Brookhaven National Lab, U.S.A.
N39 Neutron Detection III : Applications
Thursday, Oct. 31 14:00-16:00 GBR 104
Session Chairs: Ralf Engels, Forschungszentrum Juelich GmbH,
Germany
N39-1 (14:00, invited) The End of 3He as We Know It for National
Security
R. T. Kouzes, A. T. Lintereur, J. R. Ely, E. R. Siciliano, PNNL, USA
N39-2 (14:15) Real-Time Measurements of Production Uranium
Fuel Assemblies Using a Liquid Scintillator-Based Active
Interrogation Neutron Detection System
A. Lavietes, R. Plenteda, N. Mascarenhas, L. M. Cronholm, IAEA, Austria;
M. Aspinall, Hybrid Instruments, Ltd., United Kingdom; M. Joyce, Lancaster
University, United Kingdom; A. Tomanin, P. Peerani, JRC Ispra, Italy
N39-3 (14:30) Neutron Beam Profile Measurements with a Triple
GEM for Thermal Neutrons at the CERN n_TOF Facility
S. Puddu1,2, E. Aza1,3, E. Berthoumiex1, C. Guerrero1, F. Murtas1,4, M. Silari1
1
CERN, Switzerland; 2Bern University, Switzerland; 3University AUTH, Greece;
4
INFN, Italy
N39-4 (14:45) An Extended Energy-Range Neutron Detector Based
on Noble-Gas Scintillation
U. Gendotti, R. Chandra, G. Davatz, L. Goeltl, D. Murer, H. Friederich
Arktis Radiation Detectors Ltd, Switzerland
N39-5 (15:00) Performance of a Prototype Large Area Neutron
Detector Based on 6LiF:ZnS(Ag) and Read Out by MPPC
A. Vacheret1, A. Weber1, Y. Shitov2, P. Scovell1
1
University of Oxford, UK; 2Imperial College London, UK
N39-6 (15:15) LiCAF and BGO Phoswich Detectors for
Simultaneous Measurements of Atmospheric Neutrons and
Gamma-Rays
H. Takahashi1, Y. Fukazawa1, K. Fukuda2, S. Ishizu2, M. Jackson3,4, N.
Kawaguchi2, T. Kawano1, M. Kiss3,4, M. Kole3,4, E. Moretti3,4, M. Pearce3,4, S.
Rydstrom3,4, T. Yanagida5
1
Hiroshima University, Japan; 2Tokuyama Corporatoin, Japan; 3Royal
Institute of Technology, Sweden; 4AlbaNova University Center, Sweden;
5
Kyushu Institute of Technology, Japan
N39-7 (15:30) Characterization of a Transparent Rubber Sheet
Type LiCaAlF6 Neutron Scintillators with a Wavelength-Shifting
Fiber Readout
K. Watanabe, D. Sugimoto, A. Yamazaki, A. Uritani, T. Iguchi, Nagoya
University, Japan; K. Fukuda, S. Ishidu, N. Kawaguchi, Tokuyama Corp.,
Japan; T. Yanagida, Y. Fujimoto, Kyushu Institute of Technology, Japan
N39-8 (15:45) Quantification of Cement Hydration Through
Neutron Radiography with Scatter Rejection
A. S. Tremsin1, E. Lehman2, J. B. McPhate1, J. V. Vallerga1, O. H. W.
Siegmund1, B. White3, P. White3, W. B. Feller3, F. de Beer4
1
UC Berkeley, USA; 2Paul Scherrer Institute, Switzerland; 3Nova Scientific, Inc,
USA; 4South African Nuclear Energy Corp Necsa, South Africa
N40 TDCs and Other Circuits
Thursday, Oct. 31 14:00-16:00 GBR 105
Session Chairs: Hiroyuki Takahashi, Department of Nuclear
Engineering and Management, The University of
Tokyo, Japan
Nan Zhang, Siemens, United States
N40-1 (14:00) Two Novel Designs of Multi-Phase Clocked UltraHigh Speed Time Counter on FPGA for TDC Implementation
W. Yonggang, L. Chong, Z. Wensong
N40-2 (14:15) A 20-ps Temperature Compensated Time-to-Digital
Converter (TDC) Implemented in FPGA
W. Pan1,2, G. Gong1,2, H. Li1,2, J. Li1,2
1
Imaging, China
N40-3 (14:30) A Field-Programmable Gate Array (FPGA) TDC for
Fermilab SeaQuest (E906) Experiment and Its Tests with a Novel
External Wave Union Launcher
S. Y. Wang1,2,3, J. Wu1
1
Fermi National Accelerator laboratory, USA; 2Academia Sinica, Taiwan;
3
National Kaohsiung Normal University, Taiwan
N40-4 (14:45) A Quasi-Linear Position Decoding Method Based on
TOT for PET Detector Readout
Y. Chen1,2, Z. Deng1,2, X. Zhu1,2, Y. Liu1,2, Y. Liu1,2
1
Imaging (Tsinghua University), Ministry of Education, China
N40-5 (15:00) Time and Energy Measuring Front-End Electronics
for Long Silicon Strip Detectors Readout
R. Szczygiel, R. Kleczek, P. Grybos, P. Otfinowski, K. Kasinski
AGH - University of Science and Technology, Poland
N40-6 (15:15) FEERIC, a Very-Front-End ASIC for the ALICE Muon
Trigger Resistive Plate Chambers
S. Manen, LPC Clermont Ferrand, France
On behalf of the ALICE Collaboration
N40-7 (15:30) QIE10: a New Charge-Integrating Floating-Point
ADC Chip for High-Rate Experiments
T. Zimmerman, Fermilab, USA
N40-8 (15:45) Development of New Front-End Electronics for the
Upgrade of the ATLAS Muon Drift Tube Chambers at High LHC
Luminosity
P. Schwegler, S. Abovyan, V. Danielyan, D. Fink, M. Fras, O. Kortner, H.
Kroha, S. Nowak, S. Ott, B. M. Weber, R. Richter
Max-Planck-Institut fuer Physik, Germany
Thursday
N41 Radiation Damage Effects and Radiation
Hard Devices
Session Chairs: Alexandra Junkes, University of Hamburg, Germany
Erika Garutti, University of Hamburg, Germany
N41-1 (14:00, invited) Characterization of New FBK Double-Sided
3D Sensors with Improved Breakdown Voltage
G.-F. Dalla Betta1, M. Boscardin2, G. Giacomini2, F. Mattedi2, R.
Mendicino1, M. Povoli1, N. Zorzi2
1
University of Trento and INFN, Italy; 2Fondazione Bruno Kessler, Italy
N41-2 (14:30) Total Ionization Damage Effects in Double Siliconon-Insulator Devices
S. Honda, K. Hara, Faculty of Pure and Applied Sciences, University of
Tsukuba, Japan; Y. Arai, T. Miyoshi, Institute of Particle and Nuclear Studies,
High Energy Accelerator Research Organization (KEK), Japan; M. Ohno,
National Institute of Advanced Industrial Science and Technology (AIST),
Japan; T. Hatsui, RIKEN, Japan; T. Tsuru, Graduate School of Science, Kyoto
University, Japan; N. Miura, H. Kasai, Lapis Semiconductor Miyagi Co., Ltd.,
Japan; M. Okihara, Lapis Semiconductor Co., Ltd., Japan
N41-3 (14:45) Radiation Testing of DEPFET Macropixel Detectors
for the MIXS X-Ray Spectrometer
S. Aschauer1, T. Lauf2, P. Majewski1, L. Strueder1, J. Treis1
1
PNSensor GmbH, Germany; 2Max-Planck-Institut fr extraterrestrische
Physik, Germany
N41-4 (15:00) Charge Collection Measurements on Dedicated
Charge Multiplication SSDs
C. Betancourt1, T. Barber1, G. Casse2, P. Dervan2, D. Forshaw2, M. Hauser1,
K. Jakobs1, P. Kodys3, S. Kuehn1, U. Parzefall1, M. Thomas1, S. Wonsak2
1
Albert-Ludwigs Universitaet Freiburg, Germany; 2University of Liverpool,
United Kingdom; 3Charles University, Czech Republic
N41-5 (15:15) New Achievements of the ATLAS Planar Pixel
Sensors R&D Project
A. Lounis, The Laboratoire de l’Accélérateur Linéaire, France
On behalf of the ATLAS Planar Pixel Sensors R&D Collaboration
N41-6 (15:30) Radiation Hard Silicon Sensors for the CMS Tracker
Upgrade
T. Poehlsen, Institute for Experimental Physics, University of Hamburg,
Germany
On behalf of the CMS Tracker Collaboration
N41-7 (15:45) Performance and Radiation Damage Effects in the
LHCb Vertex Locator
E. Rodrigues, On behalf of the LHCb Collaboration
N42 Instrumentation for Experimental
Reactors and Nuclear Power
Session Chairs: Serge Duarte Pinto, TU Delft, Netherlands
Abdallah Lyoussi, CEA / French Atomic Energy
Commission, France
N42-1 (14:00, invited) Imaging of a Nuclear Reactor with CosmicRay Muons
H. Miyadera1, Y. Ban2, K. N. Borozdin1, Z. Lukić3, E. C. Milner1, C. L. Morris1,
J. O. Perry1, Y. Sano2, T. Sugita2, N. Yoshida2, K. Yoshioka2
1
Los Alamos National Laboratory, United States; 2Toshiba, Japan;
3
Lawrence Berkeley National Laboratory, United States
N42-2 (14:30, invited) Low Background anti-Neutrino Monitoring
with an Innovative Highly Segmented Composite Solid Scintillator
Detector
P. R. Scovell1, Y. Shitov2, A. Vacheret1, A. Weber1
1
The University of Oxford, UK; 2Imperial College London, UK
N42-3 (15:00) The Total Absorption Spectroscopy Technique for
Reactor Technology and Basic Nuclear Physics
A.-A. Zakari-Issoufou, Subatech-Nantes CNRS, France
On behalf of the the TAS collaboration (Valencia-Surrey-JyvskylDebrecen-Nantes Collaboration)
N42-4 (15:15) Utilization of Heating Device Control for WallThinned Defects Detection Using IR Thermography
K. Yoo, J. Kim, M. Na, J. Kim, H. Jung, K. Kim
Chosun University, Korea
N42-5 (15:30) Behaviour of LiF Covered Single Crystal Diamond
Detectors Operated at High Temperature under Neutron Irradiation
M. Angelone, A. Pietropaolo, M. Pillon, F. Sarto, S. Lecci, ENEA, Italy; M.
Marinelli, E. Milani, F. Pompili, G. Prestopino, C. Verona, G. Verona-Rinati,
Universit degli Studi, Italy
N43 HEP and NP Imaging
Thursday, Oct. 31 16:30-18:45 GBR 104
Session Chairs: Sergey Barsuk, LAL Orsay, France
Paul Colas, CEA/IRFU, France
N43-1 (16:30, invited) Detectors of Internally Reflected Cherenkov
Light (DIRC) for Charged Particle Identification
N. Arnaud, Laboratoire de l’Accelerateur Lineaire, France; D. W. G. S. Leith,
B. Ratcliff, J. Va’vra, SLAC National Accelerator Laboratory, USA
N43-2 (17:00) The RICH System of the LHCb Experiment: Its
Performance, Limits and Proposed Upgrade
C. D’Ambrosio, CERN, Switzerland
On behalf of the LHCb RICH Group
N43-3 (17:15) The NA62 RICH Detector
F. Bucci1, P. Cenci2, G. Anzivino3, A. Cassese1,4, R. Ciaranfi1, G. Collazuol5,6,
V. Duk2, E. Iacopini4, G. Lamanna7, S. Lami1, M. Lenti1, M. Pepe2, R.
Piandani2,3, M. Piccini2, A. Sergi7, M. Sozzi5,6
1
INFN Florence, Italy; 2INFN Perugia, Italy; 3Physics Department of the
Perugia University, Italy; 4Physics Department of the Florence University,
Italy; 5INFN Pisa, Italy; 6Physics Department of the Pisa University, Italy;
7
CERN, Switzerland
N43-4 (17:30) Next Generation Associative Memory ASIC for the
FTK Tracking Processor of the ATLAS Experiment
N43-5 (17:45) Impact of the Ionization Profile on the Time- and
Position-Resolution in Multi-Linear Silicon Drift Detectors
A. Castoldi1,2, L. Chang1,2, C. Guazzoni1,2, D. Mezza1,2, L. Carraresi3,2, F.
Taccetti2, R. Hartmann4, L. Strueder4,5
1
Politecnico di Milano, Italy; 2INFN, Italy; 3Univ. degli Studi di Firenze, Italy;
4
PNSensor GmbH, Germany; 5Universitaet Siegen, Germany
N43-6 (18:00) Ultrahigh Resolution Radiocesium Distribution
Detection Based on Cerenkov Light Imaging
S. Yamamoto, Y. Ogata, Nagoya University Graduate School of Medicine,
Japan; N. Kawachi, S. Fujimaki, Japan Atomic Energy Association, Japan
N43-7 (18:15) Luminosity Monitoring in ATLAS with MPX Detectors
A. Sopczak1, N. Asbah2, P. Benes1, B. Bergmann1, B. Biskup1, J. Jakubek1,
E. Kladiva3, C. Leroy2, S. Pospisil1, J. Solc1, P. Soueid2, M. Suk1, D. Turecek1,
Z. Vykydal1
1
Czech Technical University, Czech Republic; 2Universit de Montreal,
Canada; 3Slovak Academy of Science in Kosice, Slovakia
N43-8 (18:30) High Performances Hand Held Gamma Camera for
Intraoperative Applications
A. Fabbri1,2, M. Galasso1,2, V. Orsolini Cencelli1,2, P. Bennati3,2, M. N. Cinti3,2,
1
University of Roma Tre, Italia; 2INFN, Italia; 3University of La Sapienza, Italia
N44 Trigger Systems
Thursday
Thursday, Oct. 31 16:30-18:30 GBR 105
Session Chairs: Patrick J. Le Du, IPNL,IN2P3, France
Zhen-An Liu, Inst. of High Energy Physics, Chinese
Academy of Sciences, China
N44-1 (16:30) Applications of Many-Core Technologies to Online
Event Reconstruction in High Energy Physics Experiments
S. Amerio1, D. Bastieri1,2, M. Corvo2,3, A. Gianelle2, W. Ketchum4, A.
Lonardo2, T. Liu5, D. Lucchesi1,2, S. Poprocki6, R. Rivera5, D. Rossetti2, P.
Vicini2, P. Wittich6
1
University of Padova, Italy; 2INFN, Italy; 3CNRS, France; 4Los Alamos
National Laboratory, USA; 5Fermilab, USA; 6Cornell University, USA
N44-2 (16:45) The LHCb Trigger System: Performance and Outlook
A. Puig, NIKHEF, Netherlands, On behalf of the LHCb Collaboration
N44-3 (17:00) ATLAS Trigger Menu and Performance in 2012-2013
and Prospects for 2015
N44-4 (17:15) Upgrade of the ATLAS Level-1 Trigger with an FPGA
Based Topological Processor
N44-5 (17:30) Performance of a Level-1 Muon Trigger Based on the
ATLAS Monitored Drift Tube Chambers
P. Schwegler, S. Abovyan, V. Danielyan, M. Fras, O. Kortner, S. Kortner, H.
Kroha, S. Nowak, R. Richter, Max-Planck-Institut fuer Physik, Germany
N44-6 (17:45) The Level 0 Trigger Processor of the NA62 Liquid
Krypton Electromagnetic Calorimeter
V. Bonaiuto1, N. De Simone2, L. Federici1, A. Fucci2, G. Paoluzzi2, A.
Salamon2, G. Salina2, E. Santovetti1, F. Sargeni1, S. Venditti3
1
Universita` degli Studi di Roma Tor Vergata, IT; 2INFN, IT; 3CERN, CH
N44-7 (18:00) A Scientific Trigger Unit for Space-Based RealTime Gamma Ray Burst Detection (II - Data Processing Model and
Benchmarks)
H. Le Provost, S. Schanne, T. Chaminade, F. Chateau, F. Daly, M. Donati, C.
Flouzat, P. Kestener, CEA, France
N44-8 (18:15) A Self-Triggering Front-End Station Prototype for
Radio Detection of Ultra High Energy Neutrinos
H. Lin, Z. Liu, F. Guo, C. Wang, Institute of High Energy Physics, China
N45 Software in Action
Session Chairs: Yoshihito Namito, Radiation Science Center, Japan
Georg Weidenspointner, HLL MPG, Germany
N45-1 (16:30) The Calibration Pipeline for the Large 2D Pixel
Detectors with MHz Readout at the European XFEL
S. Hauf, B. Heisen, A. Koch, M. Kuster, J. Sztuk-Dambietz, M. Turcato, C.
Youngman, European X-ray Free Electron Laser Facility GmbH, Germany
N45-2 (16:45) Preliminary Assessment of Geant4 HP Models
and Cross Section Libraries by Reactor Criticality Benchmark
Calculations
X. X. Cai1,2, I. Llamas-Jansa1,2, S. Mullet1, S. Hval1, E. Klinkby3, T.
Kittelmann2, K. Kanaki2, R. Hall-Wilton2, B. C. Hauback1
1
Institute for Energy Technology, Norway; 2European Spallation Source ESS
AB, Sweden; 3Danmarks Tekniske Universitet, Denmark
N45-3 (17:00) Alpha Coincidence Spectroscopy Studied with GEANT4
M. P. Dion, B. W. Miller, G. Tatishvili, G. A. Warren,PNNL, USA
N45-4 (17:15) A Novel Markov Random Field-Based Clustering
Algorithm to Detect High-Z Objects with Cosmic Rays
C. Thomay, J. J. Velthuis, P. Baesso, D. G. Cussans
University of Bristol, UK
N45-5 (17:30) Development of 4D Tetrahedron-Mesh Lung
Phantom Based on Deformation Vector Field for 4D Monte Carlo
Dose Calculation
Y. S. Yeom, M. C. Han, S. H. Lee, S. Kim, C. H. Kim,Hanyang Univ, Korea
N45-6 (17:45) Evaluation of the Half-Value Layer and the Validity
of Inverse-Square Law Applied to Radiology: Comparison among
Deterministic Calculation, Monte Carlo Method and Experimental
Results
G. Hoff, N. W. Lima,Pontifical Catholic Univ in Rio Grande do Sul, Brazil
N45-7 (18:00) Prospects of Hard X-Ray Polarimetry with Astrosat-CZTI
S. V. Vadawale, Physical Research Laboratory, India
On behalf of the Astrosat CZTI team
N45-8 (18:15) Data Analysis with R in an Experimental Physics
Environment
A. Pfeiffer, CERN, Switzerland; M. G. Pia, INFN Genova, Italy
N45-9 (18:30) Generalised Perturbation Method for Instrument
Evaluation and Optimisation Using Monte Carlo Transport
J. R. Tickner, CSIRO, Australia
N45-10 (18:45) Keeper: a Tool for Management and Automated
Deployment of CMS Web Services
M. Ojeda Sandonis, CERN (European Laboratory for Particle Physics),
Switzerland,On behalf of the CMS Collaboration
N46 Synchrotron Radiation and FEL
Instrumentation II
Session Chairs: Markus Kuster, European XFEL GmbH, Germany
N46-1 (16:30, invited) Experience and prospects of the use of
pnCCDs in spectroscopic imaging applications at X-ray Free
Electron Lasers
L. Strüder, TU Munich, Germany
N46-2 (17:00) Characterization of an EIGER 1M Detector
M. Rissi, T. Loeliger, M. Mathes, V. Pilipp, V. Radicci, T. Sakhelashvili, M.
Schneebeli, R. Schnyder, S. Traut, C. Broennimann
DECTRIS Ltd., Switzerland
N46-3 (17:15) Performance of the EIGER Single Photon Counting
Detector Modules
G. Tinti1,2, A. Bergamaschi1, S. Cartier1,3, R. Dinapoli1, D. Greiffenberg1, B.
Henrich1, R. Horisberger1, I. Johnson1, A. Mozzanica1, B. Schmitt1, X. Shi1
1
Paul Scherrer Institute, Switzerland; 2European Synchrotron Radiation
Facility, France; 3Institut for Biomedical Engineering,, Switzerland
N46-4 (17:30) High Count Rate Synchrotron Experiments with
PILATUS3
M. Rissi1, C. Dejoie2, T. Loeliger1, P. Pattison3, V. Radicci1, M. Schneebeli1,
R. Schnyder1, P. Trueb1, C. Broennimann1
1
DECTRIS Ltd., Switzerland; 2ETH, Department of Materials, Switzerland;
3
Swiss-Norwegian Beamline, ESRF, France
N46-5 (17:45) A Simple Technique for Signal Compression in High
Dynamic Range, High-Speed X-Ray Pixel Detectors
C. Fiorini1,2, B. Nasri1,2, S. Facchinetti1,2, P. Fisher3, M. Porro4
1
Politecnico di Milano, Italy; 2INFN, Italy; 3Heidelberg University, Germany;
4
4Max-Planck-Institut Halbleiterlabor, Germany
N46-6 (18:00) Simulation of the 3-D Coulomb Explosion of the
Electron-Hole Carrier Distribution at High Injection Levels in 2-D
A. Castoldi, P. Zambon, Politecnico di Milano and INFN, Italy
N46-7 (18:15) Upgrade of the DeFEL Proton Beamline for Detector
Response Mapping
A. Castoldi, C. Guazzoni, D. Mezza, G. V. Montemurro, Politecnico di Milano
and INFN, Italy; L. Carraresi, F. Taccetti, Univ.di Firenze and INFN, Italy
Thursday
Thursday - MIC Oral
Presentations
M05 Multi-Modality Systems / Other Imaging
Technologies I
Thursday, Oct. 31 08:00-10:00 GBR 101-102
Session Chairs: Paul K. Marsden, King’s College London, England,
United Kingdom
Nicola Belcari, Department of Physics “E. Fermi”,
University of Pisa, Italy
M05-1 (08:00) A PET Insert for Simultaneous High Resolution PET/
MR Imaging
M. S. Judenhofer1, J. Zhou1, K. Di1, X. Bai1, J. Bec1, Y. Wu2, Y. Yang1, R.
Farrell3, K. Shah3, J. Qi1, S. R. Cherry1
1
University of California, Davis, USA; 2Digirad, USA; 3Radiation Monitoring
Devices, Inc, USA
M05-2 (08:15) The Stability of the PET Detector Efficiency under
the Influence of a Magnetic Field
C.-C. Liu1, M. Hossain1, K. Lankes2, H. F. Wehrl1, B. J. Pichler1
1
University of Tuebingen, Germany; 2Bruker Biospin MRI, Germany
M05-3 (08:30) Motion Tracking and Correction Using Wired and
Wireless MR Micro-Coils in Simultaneous PET-MR
C. Huang, J. L. Ackerman, Y. Petibon, T. J. Brady, G. El Fakhri, J. Ouyang
M05-4 (08:45) Experimental Evaluation of a Deformable
Registration Algorithm for Motion Correction in PET-CT Guided
Biopsy
R. Khare1, G. Sala2, P. Kinahan3, G. Esposito4, F. Banovac4, K. Cleary1, A.
Enquobahrie2
1
Children’s National Medical Center, USA; 2Kitware Inc., USA; 3University of
Washington, USA; 4Georgetown University hospital, USA
M05-5 (09:00) Development of a Novel MR Head Coil Integrated
with PET Detectors: Design and Optimization of Shield Boxes
K. Shimizu1, M. Suga1, A. Tachibana2, F. Nishikido2, H. Kuribayashi3, I.
Nakajima4, Y. Kawabata4, T. Yamaya2, T. Obata2
1
Chiba University, Japan; 2National Institute of Radiological Sciences,
japan; 3Siemens Japan K. K., Japan; 4Takashima Seisakusho Co., Ltd., Japan
M05-6 (09:15) Cerenkov Imaging as a Quantitative Tool for PET
Probe Synthesis on the EWOD Microfluidic Platform
A. A. Dooraghi1, P. Y. Keng1, S. Chen2, M. R. Javed1, C.-J. Kim2, R. M. van
Dam1, A. F. Chatziioannou1
1
UCLA Crump Institute for Molecular Imaging, USA; 2UCLA, USA
M05-7 (09:30) Development of Interactive 3D Imaging System for
Hepatic Angiography
E. A. Rashed1, A. M. Ghanem1, A. Amin2, A. Atia2, M. al-Shatouri1, H. Kudo3
1
Suez Canal University, Egypt; 2Helwan University, Egypt; 3University of
Tsukuba, Japan
M05-8 (09:45) Analysis of Three-Dimensional Joint Space Volume
of the Tibiofemoral Joint under Weight-Bearing Conditions Using a
C-Arm CT Scanner
J. H. Choi, S. Pal, E. J. McWalter, R. Fahrig
Stanford University, United States
196 Thursday - MIC Oral Presentations Thursday
M06 Simulation and Modeling / Tracer Kinetics
Thursday, Oct. 31 08:00-10:00 GBR 103
Session Chairs: Magdalena Rafecas, Instituto de Fisica Corpuscular
(IFIC), Universidad de Valencia - CSIC, Spain
Richard E. Carson, Yale University, United States
M06-1 (08:00) Direct 4D PET MLEM Reconstruction of Parametric
Images Using the Simplified Reference Tissue Model with the Basis
Function Method for Non-Linear Kinetics
P. Gravel, A. J. Reader, McGill University, Canada
M06-2 (08:15) Quantitative Whole-Body Parametric PET Imaging
Incorporating a Generalized Patlak Model
N. A. Karakatsanis1, Y. Zhou1, M. A. Lodge1, M. E. Casey2, R. L. Wahl1, A.
Rahmim1
1
Johns Hopkins University, USA; 2Siemens Medical Solutions, USA
M06-3 (08:30) Evaluation of Sympathetic Nervous System Function
in Normal and Spontaneously Hypertensive Rat Hearts with
Dynamic SPECT Imaging
Y. Zan1, R. Boutchko2, Q. Huang1, G. T. Gullberg2
1
Shanghai Jiao Tong University, China; 2Lawrence Berkeley National
Laboratory, USA
M06-4 (08:45) NURBS-based Anthropomorphic Phantom
Representation and Interface for Monte Carlo Simulation in
Nuclear Medicine
G. S. K. Fung1, M. Ljungberg2, W. P. Segars3, Y. Du1, J. Yue1, E. C. Frey1
1
Johns Hopkins University, USA; 2Lund University, Sweden; 3Duke University,
USA
M06-5 (09:00) A Fast Time Incorporating Monte-Carlo Simulation
of Wire Chamber Based Small Animal PET Scanners for Detector
Scatter Correction
M. Dawood, D. Vernkohl, K. Schaefers, University of Muenster, Germany
M06-6 (09:15) Simulation Guided Development of a Dual-Layer
LaBr3:Ce/LSO PET Detector
B. McIntosh1, A. L. Goertzen1, S. Pistorius1,2
1
University of Manitoba, Canada; 2CancerCare Manitoba, Canada
M06-7 (09:30) Modeling and Estimation of Detector Response and
Focal Spot Profile for High-Resolution Iterative CT Reconstruction
L. Fu1, J. Wang1, X. Rui1, J.-B. Thibault2, B. De Man1
1
GE Global Research, USA; 2GE Healthcare Technologies, USA
M06-8 (09:45) Studies of Electromagnetic Interference of PET
Detector Insert for Simultaneous PET/MRI
B. J. Lee1,2, P. D. Olcott1,2, K. Hong1,2, C. S. Levin1,2
1
Stanford Univeresity, United States; 2Stanford University, United States
M07 Imaging in Radiotherapy
Thursday, Oct. 31 10:30-12:30 GBR 101-102
Session Chairs: Xiaochuan Pan, The University of Chicago, United
States
Tae Suk Suh, Catholic University, South Korea
M07-1 (10:30) A Prototype of a Novel Transformable Single-Ring
OpenPET
T. Yamaya1, E. Yoshida1, H. Tashima1, Y. Nakajima1, F. Nishikido1, Y. Hirano1,
N. Inadama1, H. Ito1, T. Shinaji2, H. Haneishi2, M. Suga2, T. Inaniwa1
1
National Institute of Radiological Sciences, Japan; 2Chiba University, Japan
Thursday - MIC Oral Presentations 197
Thursday
M07-2 (10:45) Dosimetry by Means of in-Beam PET with RI Beam
Irradiation
Y. Nakajima, Y. Hirano, T. Yamaya, E. Yoshida, H. Tashima, S. Sato, T.
Inaniwa, National Institute of Radiological Sciences, Japan; T. Kohno,
Tokyo Institute of Technology, Japan; L. Sihver, Chalmers University of
Technology, Sweden
M07-3 (11:00) Investigating the Limits of PET/CT Imaging at Very
Low True Count Rates in Ion-Beam Therapy Monitoring
C. Kurz1, J. Bauer1, L. Guerin2, M. Conti2, L. Eriksson2, K. Parodi1,3
1
Heidelberg University Hospital, Germany; 2Siemens Healthcare Molecular
Imaging, USA; 3Ludwig-Maximilian-University, Germany
M07-4 (11:15) Development of a Three Layer Compton Telescope
Prototype Based on Continuous LaBr3 Crystal and Silicon
Photomultipliers
M. Trovato1, J. Barrio1, P. Botas1, J. Cabello1, J. E. Gillam1, C. Lacasta1,
J. Oliver1, M. Rafecas2, C. Solaz1, P. Solevi1, V. Stankova1, I. TorresEspallardo1, G. Llosa1
1
Instituto de Fisica Corpuscular (IFIC - UV/CSIC), Spain; 2Universitat de
Valencia, Spain
M07-5 (11:30) A Prototype Proton CT Scanner Using Beam Energy
Modulation Water Phantom
S. Park1, C. Jeong1, J. Lee2, S. Cho2, J. Shin1, S. Cho1, J. H. Jeong1, Y. K. Lim1,
D. Shin1, S. B. Lee1
1
National Cancer Center, Korea; 2KAIST, Korea
M07-6 (11:45) Imaging and Radiation Therapy: GATE Monte Carlo
Simulation of a Megavolt Cone Beam CT
S. Benhalouche1, J. Bert1, A. Autret1, D. Visvikis1, O. Pradier2, N. Boussion1
1
LaTIM - INSERM UMR1101 - CHRU Brest, France; 2CHRU Brest, France
M07-7 (12:00) A New Concept in Detector Design for Radiation
Therapy: Simultaneous Imaging and Dosimetry for Comprehensive
Treatment Verification
P. J. Vial1,2, S. J. Blake2, A. L. McNamara2, L. Holloway1,2,3, P. B. Greer4,5, Z. Kuncic2
1
Liverpool Cancer Therapy Centre and the Ingham Institute, Australia;
2
University of Sydney, Australia; 3University of Wollongong, Australia; 4Calvary
Mater Newcastle Hospital, Australia; 5University of Newcastle, Australia
M07-8 (12:15) Simultaneous Motion Estimation and Image
Reconstruction (SMEIR) for 4D Cone-Beam CT
J. Wang, X. Gu, UT Southwestern Medical Center, USA
M08 Signal and Image Processing
Thursday, Oct. 31 10:30-12:30 GBR 103
Session Chairs: Dimitris Visvikis, LaTIM, France
Andrew J. Reader, McGill University, Canada
M08-1 (10:30) Comparison of Methods for Classification of
Alzheimer’s Disease, Frontotemporal Dementia and Asymptomatic
Controls
Z. Wang1, P. Markiewicz1, G. Platsch2, J. Kornhuber3, T. Kuwert3, D.
Merhof1
1
University of Konstanz, Germany; 2Siemens Molecular Imaging EU,
Germany; 3Friedrich-Alexander-University of Erlangen-Nuremberg, Germany
M08-2 (10:45) Towards Optimal Exploitation of Anatomical
Information for the Detection of Inter-Hemispheric Metabolic
Asymmetries in FDG-PET Images
K. Vunckx, P. Dupont, K. Goffin, L. Zhou, W. Van Paesschen, K. Van Laere,
J. Nuyts, KU Leuven, Belgium
M08-3 (11:00) An Interventricular Sulcus Guided Cardiac Motion
Estimation Method
J. Wang, G. S. K. Fung, T. Feng, B. M. W. Tsui
Johns Hopkins University, US
M08-4 (11:15) Comparison of Different Methods for Data-Driven
Respiratory Gating of PET Data
K. Thielemans1,2, P. Schleyer2, P. K. Marsden2, R. M. Manjeshwar3, S. D.
Wollenweber4, A. Ganin4
1
University College London, UK; 2King’s College London, UK; 3GE Research,
USA; 4GE Healthcare, USA
M08-5 (11:30) Depth-Aware Template Tracking for Robust Patient
Motion Compensation in Interventional 2-D/3-D Image Fusion
J. Wang1, A. Borsdorf2, J. Endres1, J. Hornegger1,3
1
Friedrich-Alexander-University Erlangen-Nuremberg, Germany;
2
Siemens AG, Germany; 3Erlangen Graduate School in Advanced Optical
Technologies (SAOT), Germany
M08-6 (11:45) An Automated Visi-Coil Fiducial Markers Detection
Method on kV Projection Images During Prostate Radiation
Therapy
S. Badiei1, L. Zhuang2, J. Li1
1
oakland university, USA; 2William Beaumont Hospital, USA
M08-7 (12:00) MRI-Guided PET Image Filtering
J. Yan, J. Lim Chu-Shern, D. W. Townsend
A*STAR-NUS, Clinical Imaging Research Center, Singapore
M08-8 (12:15) Atomic Number Image Enhancement by Polynomial
Fitting in Dual Energy CT
D. Wu1,2, L. Zhang1,2, J. Hao1,2
1
M09 Front End and Data Acquisition
Electronics / Intra-Operative Imaging
Thursday, Oct. 31 14:00-16:00 GBR 101-102
Session Chairs: Jinyuan Wu, Fermilab, United States
Woon-Seng Choong, Lawrence Berkeley National
M09-1 (14:00) A Time-Walk Correction Method for PET Based on
Leading Edge Discriminators
J. Du, J. Schmall, M. S. Judenhofer, K. Di, Y. Yang, S. R. Cherry
UC Davis, USA
M09-2 (14:15) A New Time Calibration Method for Switchedcapacitor Array-based Waveform Samplers
H. Kim, C.-T. Chen, C.-M. Kao, University of Chicago, U.S; A. Ronzhin, E.
Ramberg, S. Los, P. Murat, Fermi National Accelerator Laboratory, U.S; W.
W. Moses, W.-S. Choong, Lawrence Berkeley National Laboratory, U.S; S.
Majewski, West Vergina University, U.S
M09-3 (14:30) A New Pileup Rejection Method Based on Position
Shift Identification
Z. Gu1, D. L. Prout1, B. Bai2, A. F. Chatziioannou1
1
UCLA, United States; 2University of Southern California, United States
M09-4 (14:45) Sphinx1: Spectrometric Photon Counting and
Integration Pixel for X-Ray Imaging with a 100 Electrons LSB
A. Habib1, M. Arques1, B. Dupont1, P. Rohr2, G. Sicard3, M. Tchagaspanian1,
L. Verger1
1
CEA-Leti, MINATEC Campus, France; 2Trixell, France; 3TIMA laboratory
(CNRS-GINP-UJF), France
Thursday - MIC Oral Presentations 199
Thursday
M09-5 (15:00) Highly-Integrated CMOS Interface Circuits for SiPMBased PET Imaging Systems
S. Dey, E. Myers, T. Lewellen, R. Miyaoka, J. C. Rudell
M09-6 (15:15) A PET detector module using LYSO/SiPM and FPGAonly MVT digitizer
D. Xi1,2, C. Zeng1,2, W. Liu1,2, X. Liu1,2, H. Kim3, L. Wang1,2, C.-M. Kao3, Q. Xie1,2
1
Wuhan National Laboratory for Optoelectronics, China; 2Huazhong
University of Science and Technology, China; 3The University of Chicago, USA
M09-7 (15:30) Algorithm-Enabled High-Performance C-arm ConeBeam CT Angiography of Cerebral Vasculature
X. Han1, Z. Zhang1, S. Oishi2, M. D. Silver3, Y.-B. Chang3, E. Y. Sidky1, X. Pan1
1
The University of Chicago, USA; 2Toshiba Medical Systems Corporation,
Japan; 3Toshiba Medical Research Institute USA, USA
M09-8 (15:45) Development and Performance Characterization of
Intraoperative Positron Probes for Tumor Surgery
N. Hudin1, L. Pinot1, B. Janvier1, Y. Charon1, M.-A. Duval1, M.-A. Verdier1, N.
Dinu2, L. Menard1
1
Laboratoire IMNC, IN2P3-CNRS, University Paris Diderot, France;
2
Laboratory of Linear Accelerator, IN2P3-CNRS, France
M10 Data Corrections and Quantitative
Imaging I
Thursday, Oct. 31 14:00-16:00 GBR 103
Session Chairs: Roger R. Fulton, University of Sydney, Australia
Georges El Fakhri, Harvard Medical School and
M10-1 (14:00) Effect of Respiratory Motion Correction and Spatial
Resolution on Tumor Detection in PET
I. Polycarpou, C. Tsoumpas, P. K. Marsden
King’s College London, UK
M10-2 (14:15) Markerless Motion Tracking for MotionCompensated Clinical Imaging
A. Kyme1, S. Se2, S. Meikle1, R. Fulton1,3
1
University of Sydney, Australia; 2MDA Corporation, Canada; 3Westmead
Hospital, Australia
M10-3 (14:30) Adaptive Recursive Bayesian Estimation Using
Expectation Maximization for Respiratory Motion Correction in
Nuclear Medicine
R. L. Smith, A. A. Rahni, J. Jones, K. Wells
University of Surrey, UK
M10-4 (14:45) Task-Based Evaluation of Motion Compensated
Reconstructed Images Using 4D Channelized Hotelling Observer in
Dual Gated SPECT
T.-S. Lee, T. Feng, B. M. W. Tsui
M10-5 (15:00) 4D Attenuation Map Generation in PET/MR Imaging
Using 4D PET Derived Motion Fields
H. Fayad1,2, H. Schmidt3, C. Wuerslin3, D. Visvikis1
1
INSERM UMR1101, LaTIM, France; 2Universit de Bretagne Occidentale,
France; 3University Hospital of Tbingen, Germany
M10-6 (15:15) Elastic Motion Correction for Cardiac PET Studies
I. Hong, J. Jones, M. Casey, Siemens Medical Solutions, USA
M10-7 (15:30) Simultaneous Partial Volume Correction and Noise
Regularization for Cardiac SPECT/CT
C. Chan1, H. Liu1,2, Y. Grobshtein3, A. J. Sinusas1, C. Liu1
1
Yale University, USA; 2Tsinghua University, China; 3GE Healthcare, Israel
M10-8 (15:45) Partial Volume Correction for Penalized-Likelihood
Image Reconstruction in Oncological PET Applications
S. Ahn1, E. Asma1, S. G. Ross2, R. M. Manjeshwar1
1
GE Global Research, USA; 2GE Healthcare, USA
Thursday - RTSD Oral
Presentations
R11 Alternative Semiconductor Materials and
Detectors
Thursday, Oct. 31 08:00-10:00 Hall E1&E2
Session Chairs: Laura Fornaro, Universidad de la República, Uruguay
Krishna C. Mandal, University of South Carolina,
United States
R11-1 (08:00, invited) Beyond Conventional Electronics: Metal
Oxide Semiconductors
E. M. Fortunato, R. Martins
FCT-UNL and CEMOP-UNINOVA, Portugal
R11-2 (08:20, invited) 4H-SiC Schottky Barrier Devices for High
Resolution Nuclear Detection
K. C. Mandal, S. K. Chaudhuri, K. J. Zavalla
University of South Carolina, USA
R11-3 (08:40) The Characteristic of Radiation Detection Property
for GaN and BGaN
K. Atsumi, H. Mimura, Y. Inoue, T. Aoki, T. Nakano
Shizuoka University, Japan
R11-4 (08:55) Detection of Light, X-Rays, and γ-Rays Using
Graphene Field Effect Transistors Fabricated on SiC, CdTe, and
AlGaAs/GaAs Substrates
O. Koybasi1, I. Childres2, E. Cazalas3, I. Jovanovic3, Y. P. Chen2
1
Massachusetts General Hospital / Harvard Medical School, USA; 2Purdue
University, USA; 3Pennsylvania State University, USA
R11-5 (09:10, invited) Flexible, Low-Cost, Room Temperature
Radiation Detectors Based on Organic Semiconductors
B. Fraboni, University of Bologna, Italy
R11-6 (09:30) Characterization of Trapping States in
Polycrystalline Lead Oxide (PbO) for Application in Direct
Conversion X-Ray Detectors
O. Semeniuk1,2, G. DeCrescenzo2, J. Rowlands2, A. Reznik2,1
1
Lakehead University, Canada; 2Thunder Bay Regional Research Institute,
Canada
R11-7 (09:45) Density Functional Study of Electronic and Defect
Properties of Tl6SeI4
K. Biswas, Arkansas State University-Jonesboro, USA; M.-H. Du, D. J. Singh,
Oak Ridge National Laboratory, USA
R12 Imaging Applications
Session Chairs: Toru Aoki, Shizuoka University, Japan
Ernesto Dieguez, PROFESSOR, Spain
R12-1 (10:30, invited) Spectral X-ray Imaging and Material
Separation with Single Photon Processing Detectors
C. Frojdh, Mid Sweden University, Sweden
R12-2 (10:50) A Field-Shaping Multi-Well Avalanche Detector for
Direct-Conversion Amorphous Selenium
A. H. Goldan, J. A. Rowlands, W. Zhao
Stony Brook University, USA
R12-3 (11:05, invited) Recent Results from a Hybrid Research
Prototype CT Scanner with CdTe-Based Counting Detector
S. G. Kappler, Siemens Healthcare, Germany
Thursday - RTSD Oral Presentations 201
Thursday
R12-4 (11:25) MCNP Study on the Design of Industrial SPECT
S.-H. Jung, J.-G. Park, J.-B. Kim, J.-H. Moon, Korea Atomic Energy Research
Institute, South Korea; C.-H. Kim, Hanyang University, South Korea
R12-5 (11:40) Mathematical Model Combining Charge Collection
in Pixelated Semiconductor Sensors and Signal Formation in
Charge Sensitive Amplifier
J. Jakubek, P. Soukup
Institute of Experimental and Applied Physics of the Czech Technical
University in Prague, Czech Republic
R12-6 (11:55) X-Ray Diffraction Imaging System for the Detection
of Illicit Substances Using Pixelated CZT Detectors
D. Kosciesza, J.-P. Schlomka, J. Meyer, Morpho Detection Germany GmbH,
Germany; G. Montemont, S. Stanchina, O. Monnet, L. Verger, CEA-Leti
Minatec, France
R12-7 (12:10) Embedded Data Processing for an Autonomous
10x10cm CZT Imaging System Using Orthogonal Capacitive Strip
Technology
S. Stanchina, G. Montemont, O. Monnet, L. Maingault, L. Verger
CEA-Leti, MINATEC Campus, France
R13 CdZnTe and CdTe Alloys
Session Chairs: Ian Radley, Kromek, United States
Kelvin G. Lynn, Washington State University, United
States
R13-1 (14:00, invited) Development of Large-Area Imaging Arrays
Using Epitaxially Grown Thick Single Crystal CdTe Layers on Si
Substrates
M. Niraula, K. Yasuda, H. Yamashita, Y. Wajima, M. Matsumoto, N. Takai, Y.
Tsukamoto, Y. Suzuki, Y. Tsukamoto, Y. Agata
Nagoya Institute of Technology, Japan
R13-2 (14:20) Characterization of Non-Equilibrium Carriers in
CdZnTe Crystal Using Time-of-Fight Technique
T. Feng, Northwestern Polytechnical University, China
R13-3 (14:35) Floating-Zone Growth of CdMnTe Crystals and Their
Characterization as Room-Temperature Semiconductor GammaRay Detectors
G. Gu, A. Bolotnikov, G. Camarda, Y. Cui, A. Hossain, K. Lee, U. Roy, G.
Yang, R. James
R13-4 (14:50) Tracking Dislocations and Related Defects in LargeVolume CdZnTe Crystals
A. Hossain, A. E. Bolotnikov, G. S. Camarda, Y. Cui, U. N. Roy, G. Yang, R.
B. James
R13-5 (15:05) CdTeSe: a Potential Candidate for Room
Temperature Radiation Detector
U. N. Roy, A. Bolotnikov, G. S. Camarda, A. Hossain, G. Yang, Y. Cui, V.
Dedic, K. Lee, R. James, Brookhaven National Laboratory, USA; A. Fauler,
M. Fiederle, Freiburger Materialforschungszentrum FMF, Germany; M.
Sowinska, G. Hennard, P. Siffert, Eurorad S.A, France
R13-6 (15:20) Chemo-Mechanical Polishing and Surface
Passivation of CdZnTe X-Ray and Gamma-Ray Detectors
S. U. Egarievwe1, A. Hossain2, I. O. Okwechime1, A. S. Dowdy1, A. A.
Egarievwe1, M. L. Drabo1, D. E. Jones1, G. S. Camarda2, A. E. Bolotnikov2,
R. B. James2
1
Alabama A&M University, USA; 2Brookhaven National Laboratory, USA
R13-7 (15:35) Investigation of THM CdZnTe Radiation Detectors
under High Flux X-Ray Irradiation
B. W. Harris, A. Emerick, S. A. Soldner, H. Li, M. Prokesch
202 Thursday - RTSD Oral Presentations Thursday
R14 Neutron Detectors
Session Chairs: Arnold Burger, Fisk University, United States
Beatrice Fraboni, Department of Physics, University
of Bologna, Italy
R14-1 (16:30, invited) Present Status of Microstructured
Semiconductor Neutron Detectors
D. S. McGregor, S. L. Bellinger, R. G. Fronk, J. K. Shultis
Kansas State University, USA
R14-2 (16:50, invited) Development of SiC Detector for the Harsh
Environment Applications
S.-H. Park1, J.-S. Park2, H. Seo1, S. K. Lee1, H.-S. Shin1, H. D. Kim1
1
KAERI, Republic of Korea; 2Hanyang University, Republic of Korea
R14-3 (17:10, invited) Novel High Efficiency BN Based Neutron
DetectionTechnologies
E. Marsden, I. Radley, Kromek Ltd., U.K.
R14-4 (17:30) Neutron Detector Using the Novel Semiconductor
LiInSe2
J. Tower, H. Hong, A. Kargar, L. Cirignano, H. Kim, K. Shah
Radiation Monitoring Devices, Inc., USA
R14-5 (17:45, invited) Lithium Indium Diselenide: a Novel
Semiconductor for Thermal Neutron Detector
A. Burger1,2, E. Tupitsyn1, B. Wiggins1, P. Bhattacharya1, E. Rowe1, M.
Groza1, L. Matei1, A. Stowe3
1
Fisk University, U.S.A.; 2Vanderbilt University, U.S.A; 3Y-12 National Security
Complex, U.S.A.
R14-6 (18:05) Microcantilever-Enabled Neutron Detection
R. Venedam1, T. Porter2, K. Kyle1
1
National Security Technologies, LLC, US; 2University Nevada-Las Vegas,
USA
Thursday - RTSD Oral Presentations 203
Thursday
Thursday - MIC Poster
Presentations
M11 Emission Tomography Instrumentation I /
High Resolution and Pre-Clinical Imaging
Thursday, Oct. 31 16:30-18:30 Hall B2
Session Chairs: Tom K. Lewellen, University of Washington, United
States
Chang Lyong Kim, GE Healthcare, United States
M11-1 Imaging Performance of the Tachyon Time-of-Flight PET
Camera
Q. Peng, W.-S. Choong, C. Vu, J. S. Huber, M. Janecek, D. Wilson, R. H.
Huesman, W. W. Moses
M11-2 Experimental Validation of an Efficient Fan Beam
Calibration Procedure for k-Nearest Neighbor Position Estimation
in Monolithic Scintillator TOF-PET Detectors
G. Borghi, S. Seifert, V. Tabacchini, D. R. Schaart
Delft University of Technology, Netherlands
M11-3 Coincidence Time Correction (CTC) Method for TOFPET Scanners with Correction to Account for Misalignment of
Calibration Phantom
J. Uribe, D. L. McDaniel, C. W. Stearns
General Electric Healthcare, USA
M11-4 A Temporal Analytical Model for Estimating the Time
Resolution of Time-of-Flight PET
P. Jarron1,2, E. Auffray1, K. Doround1, S. Gundacker1, P. Lecoq1
1
CERN, Switzerland; 2university of Torino, Italy
M11-5 Ability of the Position Emission Mammography System,
PEMi, in Detection of Millimeter-Sized Lesions
L. Wei1,2, L. Li1,2, Z. M. Zhang1,2, X. Y. Gu1,2, P. Chai1,2
1
Institute of high energy physics, Chinese academy of sciences, China;
2
Beijing Engineering Research Center of Radiographic Techniques and
Equipment, China
M11-6 Performance Evaluation of the Dual Ring MAMMI Breast
PET
A. Soriano1, F. Sanchez1, V. Carrilero2, A. C. Pardo2, L. F. Vidal1, C. Vazquez2,
M. Seimetz1, M. J. Rodriguez-Alvarez1, J. P. Rigla1, L. Moliner1, A. J.
Gonzalez1, A. Iborra1, E. Crespo1, P. E. Conde1, P. J. Bellido1, L. Caballero2,
J. M. Benlloch1
1
i3M - CSIC, Spain; 2Oncovision, Spain
M11-7 Performance Evaluation of a Transformable Axial-Shift Type
Single-Ring OpenPET
E. Yoshida1, T. Shinaji2, H. Tashima1, H. Haneishi2, T. Yamaya1
1
National Institute of Radiological Sciences, japan; 2Chiba University, Japan
M11-8 A Dedicated PET System for Human Brain and Head/Neck
Imaging
Z. Wang, S. Xie, PINGSENG Healthcare (Kunshan) Inc., China
M11-9 Performance Evaluation of GAPD-Based Brain PET
J. Jung, Y. Choi, J. H. Jung, S. Kim, K. C. Im, H.-J. Choe
Molecular Imaging Research & Education (MiRe) Laboratory, Department
of Electronic Engineering, Sogang University, Korea
M11-10 Design and Development of a Gapless Ring with Modular
PMT-Quadrant-Sharing Detector (PQS) for a Time-of-Flight PET
Camera
H. Li1, Y. Zhang1, R. Ramirez1, S. An2, H. Baghaei1, W.-H. Wong1
1
University of Texas - M.D. Anderson Cancer Center, USA; 2United Imaging
Healthcare, Co., China
204 Thursday - MIC Poster Presentations Thursday
M11-11 A Proposed Helmet-PET with a Jaw Detector Enabling
High-Sensitivity Brain Imaging
H. Tashima, H. Ito, T. Yamaya
National Institute of Radiological Siences, Japan
M11-12 Performance Evaluation of Big Detector Design for a High
Resolution PET Scanner - a Simulation Study.
M. Dahlbom, David Geffen School of Medicine at UCLA, USA; B. Bai,
University of Southern California, USA; W. Luo, Naviscan Inc, USA
M11-13 Development of a 3D PET Detector with Wave Length
Shifting Fibers
S. Suzuki1, S. Han1,2, S. Iijima1, H. Ito1, H. Kawai1, S. Kodama1, D.
Kumogoshi1, K. Mase1, M. Nitta1,2, M. Tabata1,3
1
Chiba University, Japan; 2National Institute of Radiological Siences, Japan;
3
Japan Aerospace Exploration Agency, Japan
M11-14 PMT Based Pentagon and Hexagon Detector Module
Designs for Convex Polyhedron PET Systems
H. Shi1,2, D. Du1, J. Xu3, Q. Peng1
1
Lawrence Berkeley National Laboratory, USA; 2Tsinghua University, China;
3
Huazhong University of Science and Technology, China
M11-15 Initial Performance of a New Small APD-PET Using a Time
over Threshold Method
S. Ito1, K. Shimazoe2, H. Takahashi2, Y. Okumura2, Y. Seto2, T. Momose2, M.
Takahashi2, K. Matsusaka2, M. Fukayama2, K. Kamada3, A. Yoshikawa3, M.
Yoshino1, Y. Usuki1
1
FURUKAWA CO.,LTD., Japan; 2University of Tokyo, Japan; 3Tohoku
University, Japan
M11-16 Design of Asymmetric PET Detector Using APD and SiPMs
with DOI Capability
J. Jiang, K. Shimazoe, H. Takahashi
the University of Tokyo, Tokyo
M11-17 Optical Simulation of a DOI Detector with a Stack of Planer
Scintillators
A. Gondo1, T. Shinaji1,2, Y. Hirano2, E. Yoshida2, F. Nishikido2, N. Inadama2,
H. Tashima2, T. Yamaya2,1, H. Haneishi1
1
Chiba University, Japan; 2National Institute of Radiological Sciences,
Japan
M11-18 Scintillation Crystal Side-Readout with SiPMs for
Improved Time Resolution
M. F. Bieniosek, J. Y. Yeom, C. S. Levin
M11-19 Evaluation of Imaging Modules Based on SensL Array SB-8
for Nuclear Medicine Applications
A. V. Stolin, S. Majewski, R. R. Raylman, West Virginia University, USA; J.
Proffitt, AiT Instruments, USA
M11-20 Analyzing the Stability of Many APDs Through Leakage
Current and Temperature Monitoring in a 1 mm^3 Clinical PET
System
D. L. Freese, A. Vandenbroucke, D. Innes, F. W. Y. Lau, D. F. C. Hsu, P. D.
Reynolds, C. S. Levin, Stanford University, USA
M11-21 An evaluation of three-dimensional imaging by use of Si/
CdTe Compton cameras
M. Yamaguchi1, Y. Nagao1, N. Kawachi1, S. Fujimaki1, T. Kamiya1, H.
Odaka2, M. Kokubun2, S. Takeda2, S. Watanabe2, T. Takahashi2, H.
Shimada3, K. Torikai3, K. Arakawa1,3, T. Nakano3
1
Japan Atomic Energy Agency, Japan; 2Japan Aerospace Exploration
Agency, Japan; 3Gunma University, Japan
M11-22 Multi-Head Gamma Camera System with CdZnTe
K. Ogawa, Y. Ichimura, T. Donai, Hosei University, Japan; I. O. Umeda, H.
Fujii, National Cancer Center, Japan
M11-23 Time Mark Estimators for MD-SiPM and Impact of System
Parameters
E. Venialgo, S. Mandai, E. Charbon, TUDelft, Netherlands
Thursday - MIC Poster Presentations 205
Thursday
M11-24 Fast and Unbiased 3D Calibration Method of Arbitrary
Scintillator Based Fully Digital PET Detectors
D. Schug1, F. Kiessling2, V. Schulz1,3
1
RWTH Aachen University, Germany; 2RWTH Aachen University Hospital,
Germany; 3Philips Technologie GmbH Innovative Technologies, Germany
M11-25 Evaluation of Depth of Interaction Measurements Using
Discrete Crystal Arrays and Digital Silicon Photomultipliers
A. L. Lehnert, W. C. J. Hunter, T. K. Lewellen, R. S. Miyaoka
M11-26 Characterization of Count Loss and Energy Resolution
of a Finely Pixilated Detector Block Using a Digital Silicon
Photomultiplier Array
G. Stortz1, F. Retiere2, M. D. Walker1, A. L. Goertzen3, P. Kozlowski1, J. D.
Thiessen3, C. J. Thompson4, X. Zhang3, V. Sossi1
1
University of British Columbia, Canada; 2TRIUMF, Canada; 3University of
Manitoba, Canada; 4McGill University, Canada
M11-27 Statistical Moments of Scintillation Light Distribution
Using Digital-SiPMs and Monolithic Black Painted Crystals
P. Conde, A. J. Gonzalez, L. Hernandez, P. Bellido, E. Crespo, A. Iborra, L.
Moliner, J. P. Rigla, M. J. Rodriguez, F. Sanchez, M. Seimetz, A. Soriano, L.
F. Vidal, J. M. Benlloch
Instituto de Instrumentacion para Imagen Molecular (I3M), Spain
M11-28 Scintillator Arrangement on Digital SiPMs for PET
M. Streun, H. Noeldgen, A. Erven, L. Jokhovets, M. Ramm, G.
Kemmerling, S. van Waasen, Forschungszentrum Juelich, Germany
M11-29 Development of a Depth-Encoding PET Detector Using
Wavelength-Shifting (WLS) Fibers
S. J. An1,2, H.-I. Kim1,2, C. Y. Lee1,2, W. J. Jo1,2, H. K. Song1,2, Y. H. Chung1,2
1
College of Health Science, Yousei University, Republic of Korea; 2Institute of
Health Science, Yonsei University, Republic of Korea
M11-30 Evaluation of Different DOI Detector Modules for a
Dedicated Mouse Brain PET/MRI
C. Parl, D. Stricker-Shaver, A. Kolb, B. J. Pichler
University of Tuebingen, Germany
M11-31 High Probability Crystal Pin Identification in Scintillator
Matrix-Based PET Detector with a Prototype Digital SiPM
B. Jatekos, E. Lorincz, F. Ujhelyi, G. Erdei
Budapest University of Technology and Economics, Hungary
M11-32 Optimization of a High Resolution PET Detector Based on
a 0.8 Mm Pitch LYSO Array and Digital SiPMs
C. W. Lerche, Philips Research Europe, The Netherlands; P. Sampath, P. M.
Dppenbecker, T. Solf, Philips Research Europe, Germany
M11-33 Investigation of Silicon Photomultipliers for Use in
Preclinical Tomographs with BGO Arrays
D. L. Prout, Z. Gu, A. F. Chatziioannou
UCLA Crump Institute, USA
M11-34 Design of PET DOI Crystal Array for Light Sharing PSD
and SiPM Readout: Intrinsic Spatial Resolution and Energy
Measurement
V. Vandenbussche, L. Menard, L. Pinot, M.-A. Verdier, M.-A. Duval, Y.
Charon,
IN2P3-CNRS, France
M11-35 Development of a Proto Type Detector Using APD-Arrays
Coupled with Pixelized Ce:GAGG Scintillator for High Resolution
Radiation Imaging
K. Kamada1, K. Shimazoe2, I. Shigeki3, M. Yoshino3, J. Kataoka4, S.
Kurosawa1, Y. Yokota1, A. Yoshikawa1, H. Takahashi2
1
Tohoku University, Japan; 2The University of Tokyo, Japan; 3Furukawa Co.,
Ltd, Japan; 4Waseda University, Japan
M11-36 Initial Imaging Results from a High-Resolution Time-ofFlight PET Detector Designed for Dedicated Breast Imaging
S. Krishnamoorthy, M. Werner, M. Kaul, J. S. Karp, S. Surti
University of Pennsylvania, USA
M11-37 Detector Module Performance for a One-Ring SmallAnimal PET Prototype
A. Miranda, N. A. Gomez, T. Murrieta-Rodriguez, A. Martinez-Davalos, M.
Rodriguez-Villafuerte, Instituto de Fisica, UNAM, Mexico
M11-38 Development of Compact Readout Electronics and
Efficient Maximum Likelihood Position Estimator for Multi-AnodePMT Scintillation Cameras
M.-W. Lee, Y.-L. Lee, Y.-C. Chen, National Central University, Taiwan
M11-39 Simulation Studies of a Phoswich PET Detector Design
with a Two-Fold Improvement in Spatial Sampling
X. Zhang1,2, C. J. Thompson3, J. D. Thiessen1, A. L. Goertzen1
1
University of Manitoba, Canada; 2University of California, Davis, United
States; 3Montreal Neurological Institute, Canada
M11-40 Compton Interaction Identification in Monolithic
Scintillators: a Simulation Study with Ce:GAGG
J. Cabello1, F. R. Schneider1, I. Somlai-Schweiger1, G. Llosa2, M. Rafecas2,
S. I. Ziegler1
1
Klinikum rechts der Isar der Technischen Universitat Muenchen, Germany;
2
Instituto de Fisica Corpuscular (IFIC), Spain
M11-41 Evaluation of a High-Resolution PET Probe
M. Grkovski1, K. Brzezinski2, V. Cindro1, N. H. Clinthorne3, H. Kagan4, C.
Lacasta2, G. Llosa2, M. Mikuz1, C. Solaz2, A. Studen1, P. Weilhammer4, D.
Zontar1
1
Jozef Stefan Institute, Slovenia; 2Instituto de Fisica Corpuscular, Spain;
3
University of Michigan, US; 4Ohio State University, US
M11-42 Performance Evaluation of the Inveon PET Scanner Using
GATE Based on the NEMA NU-4 Standards
L. Lu1, N. Karakatsanis2, J. Ma1, Z. Bian1, Y. Han1, J. Tang3, A. Rahmim2, W.
Chen1
1
Southern Medical University, China; 2Johns Hopkins University, USA;
3
Oakland University, USA
M11-43 Simultaneous Scanning of Two Mice in the Inveon
Small Animal PET Scanner: a Quantitative Assessment Using
Experimental and Simulated Data
F. Boisson1, C. J. Wimberley2, D. Zahra1, H. Hamze1, M.-C. Gregoire1, A.
Reilhac1
1
2
M11-44 Electronics Upgrade and Crystal Geometry Optimization
for a Sub-Millimeter Small Animal PET Based on Continuous
Crystals and SiPMs
J. Barrio, J. Cabello, A. Etxebeste, C. Lacasta, J. F. Oliver, M. Rafecas, C.
Solaz, V. Stankova, G. Llosa
Instituto de Fisica Corpuscular (IFIC - Universitat de Valencia/CSIC), Spain
M11-45 Sensitivity Enhancement Using Triple-Coincidence Events
in the AXPET Demonstrator.
J. E. Gillam, P. Solevi, J. Oliver, M. Rafecas, IFIC (CSIC - Universitat de
Valencia), Spain; C. Casella, ETH Zurich, Switzerland; M. Heller, C. Joram,
CERN, Switzerland
M11-46 Design and Development of PETiPIX: an Ultra High Spatial
Resolution Small Animal PET Scanner
K. Li1, M. Safavi-Naeini1, D. R. Franklin2, M. Petasecca1, S. Guatelli1, A. B.
Rosenfeld1, B. Hutton1, M. L. F. Lerch1
1
University of Wollongong, Australia; 2University of Technology Sydney,
Australia
M11-47 MicroInsert II: the Second Generation Small Animal Virtual
Pin-Hole PET System
B. Ravindranath1, J. Wen1, A. J. Mathews1, K. Li1, D. Tomov1, D. Catherall2,
S. Komarov1, J. A. O’Sullivan1, Y.-C. Tai1
1
Washington University in St. Louis, USA; 2Saint Louis University, USA
M11-48 Simulation Studies of MADPET4 - A Design Concept for a
MRI compatible PET Insert with Individually Read Out Crystals
F. R. Schneider, J. Cabello, S. I. Ziegler
Technische Universitaet Muenchen, Germany
Thursday
M11-49 3D Molecular Breast Imaging Using a High-Resolution
Dedicated Cardiac SPECT Camera
H. Liu1,2, C. Chan1, Y. Grobshtein3, T. Ma2, Y. Liu2, S. Wang2, P. L. Kench4, A.
J. Sinusas11, C. Liu1
1
Yale University, USA; 2Key Laboratory of Particle & Radiation Imaging
(Tsinghua University), Ministry of Education, China; 3GE Healthcare, Israel;
4
M11-50 Wavelength-Shifting Fibre Gamma Camera with SiPMs:
First Small Animal Tests
I. F. Castro1, A. J. Soares1, L. M. Moutinho1, M. A. Ferreira2, R. Ferreira2, A.
Combo2, F. Muchacho2, A. C. Santos3, J. F. Veloso1
1
University of Aveiro, Portugal; 2ISA, Intelligent Sensing Anywhere S.A.,
Portugal; 3IBB-IBILI-FMUC, Portugal
M11-51 Feasibility Study of Small Animal Broad Energy Gamma
Camera
Y. Jung1,2, S. Jeon1, M. Kim1,2, K. Kim1, K. Lee2, J. Kim1
1
Korea Institute of Radiologic & Medical Sciences (KIRAMS), Korea; 2Korea
University, Korea
M11-52 Animal SPECT Imaging on a Shared PET/SPECT Ring
Detector with Elliptical-Pinhole Collimator
J. Wu1, S. Chen1, G. Gong1, N. Jiang2, F. He2, S. Wang1, Y. Liu1, T. Ma1
1
Ministry of Education, China; 2NucMed Technology Ltd., China
M11-53 Development and Evaluation of a Multi-Pinhole Collimator
for a High-Resolution Small Animal SPECT System
H. J. Ryu1, B. M. W. Tsui2, A. Rittenbach2, J. Xu2, T. Feng2, H. J. Kim1
1
Yonsei Univ., South Korea; 2Johns Hopkins Univ., USA
M11-54 Development of a High Resolution YSO Gamma Camera
System Employing 0.8 mm Pixels
S. Yamamoto1, H. Watabe2, Y. Kanai3, K. Kato1, J. Hatazawa3
1
Nagoya University Graduate School of Medicine, Japan; 2Tohoku
University, Japan; 3Osaka University Graduate School of Medicine, Japan
M11-55 Low-Cost High Performance Compact Gamma Camera
Based on Continuous NaI(Tl) Crystal and PSPMT Array
A. Fabbri, V. Orsolini Cencelli, M. Galasso, University of Roma Tre, Italy; J.
Xu, A. Rittenbach, B. M. Tsui, Johns Hopkins University, USA
M11-56 A Whole Body Mouse Sized μSPECT Image Quality
Phantom
S. Deleye1, J. Verhaeghe1, R. Van Holen2, B. Vandeghinste2, S.
Vandenberghe2, S. Stroobants3, S. Staelens1
1
University of Antwerp, Belgium; 2Ghent University, Belgium; 3University
Hospital Antwerp, Belgium
M11-57 Development of a High-Purity Germanium Small-Animal
SPECT-CT System
L. C. Johnson, O. S. Ovchinnikov, S. Shokouhi, T. E. Peterson
Vanderbilt University, USA
M11-58 An Experimental Study of Optimal Energy Window Setting
for Quantitative Accuracy Using CZT-Based Micro-SPECT
S.-J. Park, Yonsei University, Korea; A.-R. Yu, H.-J. Kim, ,
M11-59 Preliminary Results of an Automatic Channel Fault
Detection System on a Small Animal APD-Based Digital PET
Scanner
J. Charest, J.-F. Beaudoin, J. E. Cadorette, R. Lecomte, C.-A. Brunet, R.
Fontaine
Universite de Sherbrooke, Canada
M11-60 Energy Window Optimization of PET Detectors for SPECT
Imaging
R. Yao, State University of New York at Buffalo, USA; J. Cadorette, J.-F.
Beaudoin, R. Lecomte, University of Sherbrooke, Canada
M11-61 Achieving 0.6-mm FWHM Spatial Resolution with an RPCBased Small-Animal PET Prototype
P. Martins1,2, A. Blanco1, P. Crespo1,2, M. F. Ferreira Marques2,3, R. Ferreira
Marques1,2, P. M. Gordo2, M. Kajetanowicz4, G. Korcyl5, L. Lopes1, J.
Michel6, M. Palka5, M. Traxler7, P. Fonte1,3
1
LIP - Coimbra, Portugal; 2University of Coimbra, Portugal; 3Polytechnic
of Coimbra, Portugal; 4Nowoczesna Elektronika, Poland; 5Jagiellonian
University, Poland; 6Goethe-Universitaet Frankfurt, Germany; 7GSI
Helmholtz Centre for Heavy Ion Research, Germany
M11-62 Reconstruction of Crystal Stack Orientations Using LineSource Measurements in PET
A. F. Salomon1,2, T. Solf2, V. Schulz2,3, R. Botnar1
1
King’s College London, England; 2Philips Innovative Technologies,
Netherlands; 3RWTH/UKA Aachen University, Germany
M11-63 Fast Matrix Generation for Rotating Slat Collimation
Iterative Reconstruction
F. Boisson, Australian Nuclear Science and Technology Organisation,
Australia; V. Bekaert, J. Wurtz, Z. El Bitar, D. Brasse, Institut
Pluridisciplinaire Hubert Curien, France
M11-64 The Multi-Source Instant CT for Superfast Imaging: System
Concept, Reconstruction Algorithms and Experiments
L. Li, Z. Chen, X. Jin
Department of Engineering Physics,Tsinghua University, China
M11-65 Contrast-Enhanced Ex Vivo Micro-CT Imaging of a GBM
Model in Rat Brains
A. Martinez-Davalos, N. Salas-Bautista, M. Rodriguez-Villafuerte, Instituto
de Fisica, UNAM, Mexico; J. Manjarrez-Marmolejo, Instituto Nacional de
Neurologa y Neurociruga, Mexico
M11-66 Quality of Micro-CT Images Acquired from Simultaneous
Micro-CT and Benchtop X-Ray Fluorescence Computed
Tomography (XFCT) Scanning: a Preliminary Monte Carlo Study
N. Manohar, S. H. Cho
The University of Texas MD Anderson Cancer Center, USA
M11-67 Small Receive-Only Surface Coil with Improved Detuning
for Pre-Clinical MRI Studies
S. Rescia, Brookhaven National Laboratory, USA
M11-68 Large-Field High-Contrast Hard X-Ray Zernike PhaseContrast Nano-Imaging Beamline at Pohang Light Source
J. Lim, Pohang Accelerator Laboratory, korea
M11-69 Partial Volume Effect of Different Thickness, Inner
Diameter and Positron Range in Small Animal Cardiac PET Imaging
M. J. Park1, G. S. K. Fung2, T. Yamane1, F. Kaiser1, K. Fukushima1, T. Higuchi1
1
University of Wuerzburg, Germany; 2Johns Hopkins Medical Institutions,
United States
M11-70 Demonstration of Motion Correction for PET-MR with PVA
Cryogel Phantoms
G. M. Soultanidis1, C. W. Lerche2, J. E. Mackewn1, C. Tsoumpas1, P. K.
Marsden1
1
King’s College London, United Kingdom; 2Philips reserarch Europe,
Germany
M12 Other Imaging Technologies I / MultiModality Systems
Session Chairs: Paul E. Kinahan, University of Washington, United
States
United States
M12-1 Design, Development and Performance Evaluation of CT
Imaging in Inliview 3000 Animal PET/SPECT/CT System
H. Liu1, T. Ma1, W. Wang2, X. Xiong1, S. Chen1, X. Huang3, N. Jiang1, Y. Liu1,
S. Wang1
1
Ministry of Education, China; 2Navy General Hospital, China; 3NucMed
Technology Ltd., China
Thursday
M12-2 Design and Development of a Prototype Cone-Beam
Computed Tomography System
C. Seo, B. K. Cha, R. K. Kim, T.-B. Lee, C.-R. Kim, D. Heo, K. Yang, S. Jeon, Y.
Huh, Korea Electrotechnology Research Institute, South Korea; J. C. Park, W.
Y. Song, University of California San Diego, USA
M12-3 Simulated Dental Cone Beam Computed Tomography Using
Timepix
S. H. Baek, Pacific Bio Imaging, United States; J. Uher, Amsterdam Scientific
Instruments, The Netherlands
M12-4 DentiiScan: the First Cone-Beam CT Scanner for Dental and
Maxillofacial Imaging Developed in Thailand
S. S. Thongvigitmanee1, S. Kasemsarn2, P. Sirisalee3, S. Aootaphao1, J.
Rajruangrabin1, P. Yampri1, T. Srivongsa1, V. Sa-Ing1, P. Thajchayapong4
1
National Electronics and Computer Technology Center, Thailand;
2
Suthinee Dental Center, Thailand; 3National Metal and Materials
Technology Center, Thailand; 4National Science and Technology
Development Agency, Thailand
M12-5 Associated Particle Neutron Elemental Imaging for Disease
Diagnoses
D. Koltick, H. Wang, Purdue University, USA
M12-6 Small and Ultra-Small Angle X-Ray Scattering Contrast
Obtained with a Synchrotron-Based Shack-Hartmann Imaging System
S. Wiebe1, N. Samadi1, G. Belev2, M. Martinson1, D. Chapman1
1
University of Saskatchewan, Canada; 2Canadian Light Source, Canada
M12-7 Optimization of Acquisition Conditions for a Newly
Developed Digital Breast Tomosynthesis System
H.-S. Park1, Y.-S. Kim1, Y.-W. Choi2, J.-G. Choi2, H.-J. Kim1
1
Yonsei University, Korea; 2Korea Electrotechnology Research Institue (KERI),
Korea
M12-8 Grating-Based Dark-Field Breast Imaging
J. Rieger, F. Bayer, J. Durst, W. Haas, F. Horn, T. Michel, G. Pelzer, A. Ritter,
T. Weber, A. Zang, G. Anton, University Erlangen-Nuremberg, Germany
M12-9 In Vitro Photoacoustic Tomography Using LMS Adaptive
Filter for Chicken Testicular
T. C. Wu, C. H. Yang, National Taipei University of Technology, Taiwan
M12-10 The Performance Evaluation of the Electron Tracking
Compton Camera
S. Sonoda1, H. Kubo1, T. Sawano1, Y. Matsuoka1, S. Komura1, S.
Nakamura1, Y. Mizumura1, T. Mizumoto1, S. Kabuki2, H. Kimura1, A.
Takada1, T. Tanimori1
1
Kyoto Univ., Japan; 2Tokai Univ., Japan
M12-11 Multimodal Breast Imaging using Scattering Radiation
M. Antoniassi, M. E. Poletti
Faculdade de Filosofia Ciências e Letras de Ribeirão Preto - Universidade de
São Paulo, Brazil
M12-12 Breast imaging using Compton scattering: A preliminary
computational study
M. Antoniassi1, A. L. C. Conceição2, M. E. Poletti1
1
Faculdade de Filosofia Ciências e Letras de Ribeirão Preto - Universidade
de São Paulo, Braziil; 2Universidade Tecnológica Federal do Paraná, Braziil
M12-13 Dual-Energy CT Composite Images Aiming at Visualization
of Acute Cerebral Stroke in Emergency : A Phantom Study
H. Hara1, H. Muraishi1, T. Inoue2, S. Abe3, H. Satoh3, H. Matsuzawa4, Y.
Nakajima2
1
Kitasato University, Japan; 2St.Marianna University School of medicine,
Japan; 3Ibaraki Prefectural University of Health Sciences, Japan; 4Saitama
Medical University, Japan
M12-14 (K+α)-Material Decomposition in K-Energy CT
K. E. Jang, J. Choi, J. Lee, Y. Sung, S. Lee
Samsung Advanced Institute of Technology, Republic of Korea
M12-15 A General Adaptive Decomposition Method for MultiEnergy Spectral CT
Y. Xing, Y. Li, L. Shen, Tsinghua University, China
M12-16 Reduction of Beam Hardening Using Spatial Filtering in
Multi-Energy CT Imaging
J. Son1, S. M. Kim2, J. S. Lee1
1
Department of Nuclear Medicine, Seoul National University College of
Medicine, Korea; 2University of Washington, USA
M12-17 Effects of Volume Fraction on the Post-Reconstruction
Images Using Dual- and Triple-Energy in Computed Tomography
D.-H. Kim1, Y.-J. Lee1, P.-H. Jeon1, B.-D. Jo1, W.-H. Lee2, H.-J. Kim1
1
Yonsei University, Korea, Republic of; 2Yonsei University Wouju Severance
Christian Hospital, Korea, Republic of
M12-18 Computed Tomography of Acrylic Phantom with Iodine
and Aluminum Reconstructed by Two Transmission Measurements
I. Kanno, K. Shima, H. Shimazaki, Y. Yamashita, Graduate School of
Engineering, Kyoto University, Japan; K. Watanabe, Graduate School of
Engineering, Nagoya University, Japan; M. Ohtaka, M. Hashimoto, K. Ara,
Japan Atomic Energy Agency, Japan; H. Onabe, Raytech Corporation, Japan
M12-19 Comparison Between Different Methods for Parametric
Image Estimation in Analyzer-Based Phase Contrast Images.
O. Caudevilla, K. Majidi, J. G. Brankov, Illinois Institute of Tehnology, USA
M12-20 Quantitative Volumetric Breast Density Estimation Using
Differential Phase Contrast Imaging
Z. Wang1, F. D’Isidoro1, N. Hauser2, M. Stampanoni1,3
1
Paul Scherrer Institute, Switzerland; 2Kantonsspital Baden, Switzerland;
3
University and ETH Zurich, Switzerland
M12-21 Characterization and Optimization of Grating
Interferometers Operated at Polychromatic X-Ray Sources
A. Hipp1,2, M. Willner1, M. Chabior1, J. Herzen1,2, F. Epple1, S. Ehn1, K.
Achterhold1, F. Pfeiffer1
1
Technische Universitaet Muenchen, Germany; 2Helmholtz-Zentrum
Geesthacht, Germany
M12-22 Comparison of a Photon-Counting-Detector and a CMOS
Flat-Panel-Detector for a Micro-CT
J. Kim, S. Park, M. Hegazy, S. Lee, Kyung Hee University, Korea
M12-23 Evaluation of CT images in the very low x-ray flux with a
photon counting Detector with a CdTe semiconductor
F. Kaibuki, M. Matsumoto, K. Ogawa, Hosei University, Japan
M12-24 Pre-Calculated Kernels Based Scatter Correction Method
in Micro-CT Imaging System
K. Koubar, Z. El Bitar, D. Brasse, P. Laquerriere
CNRS UMR7178, France
M12-25 Scatter Correction Method with Primary Modulator for
Dual Energy Digital Radiography
B.-D. Jo, D.-H. Kim, Y.-J. Lee, P.-H. Jeon, H.-J. Kim, Yonsei University, Korea
M12-26 Component Separation for Spectral X-Ray Imaging Using
the XPAD3 Hybrid Pixel Camera
M. Dupont1, Y. Boursier1, A. Bonissent1, F. Galland2, F. Cassol Brunner1, C.
Morel1
1
CPPM, Aix-Marseille University, CNRS/IN2P3, France; 2Aix-Marseille
University, CNRS, Centrale Marseille, Institut Fresnel, France
M12-27 Analysis of Optimal CT Spectrum for PET Attenuation
Correction
X. Rui1, Y. Long1, E. Asma1, A. Alessio2, P. Kinahan2, B. De Man1
1
General Electric - Global Research, USA; 2University of Washington, USA
M12-28 Measurement of Atomic Numbers Using Energy-Resolved
Computed Tomography
Y. Yamashita, M. Kimura, M. Kitahara, I. Kanno, Kyoto University, Japan;
M. Ohtaka, M. Hashimoto, K. Ara, Japan Atomic Energy Agency, Japan; H.
Onabe, Raytech Corporation, Japan
M12-29 Optimization of the CT Scan Protocol for Quantitative
Myocardial Perfusion Imaging
T. Ichihara, K. Izawa, T. Natsume, Fujita Health University School of
Health Science, Japan; Y. Ikeda, S. Kaminaga, Toshiba Medical Systems
Corporation, Japan
Thursday
M12-30 An Improved Ring Artifact Removal Approach for Flatpanel Detector Based Computed Tomography Images
D. Zeng, J. Ma, Y. Zhang, Z. Bian, J. Huang, W. Chen
Southern Medical University, China
M12-31 3D Helical X-Ray Interior Tomography Using Parallel
Proximal Algorithm
M. Lee, J. C. Ye, KAIST, Korea
M12-32 A Preliminary Observer Studies for Optimization-Based
Reconstruction from Low-Dose Breast CT Data
J. Bian1, K. Yang2, I. Reiser1, E. Sidky1, J. Boone2, X. Pan1
1
The University of Chicago, US; 2University of California Davis, US
M12-33 Preliminary Study of Optimization-based Image
Reconstruction from Patient Dental CT Data
Z. Zhang1, X. Han1, J. Bian1, B. Kusnoto2, E. Sidky1, X. Pan1
1
University of Chicago, USA; 2University of Illinois at Chicago, USA
M12-34 Rapid Rabbit: Highly Optimized GPU Accelerated ConeBeam CT Reconstruction
E. T. Papenhausen, K. Mueller, Stony Brook University, U.S.
M12-35 Adaptive L0 Norm Constrained Reconstructions for
Sparse-View Scan in Cone-Beam CT
Y. Hu1,2, Y. Chen1,2, Q. Cao1,2, L. Luo1,2, T. Christine1,2
1
the laboratory of image science and technology, China; 2Centre de
Recherche en Information Biomedicale Sino-Francais (LIA CRIBs), France
M12-36 Sparse-View Reconstruction from Restored Low-Dose CT
Projections
W. L. Liu, J. Y. Rong, P. Gao, Q. M. Liao, H. B. Lu*
Fourth Military Medical University, China
M12-37 Confidence Weighted Dictionary Learning Algorithm for
Low-Dose CT Image Processing
Y. Chen1,2, F. Yu1,2, Q. Cao1,2, L. Shi1,2, Y. Hu1,2, L. Luo1,2, T. Christine2,3,4
1
the laboratory of image science and technology, China; 2Centre de
Recherche en Information Biomedicale Sino-Francais (LIA CRIBs), France;
3
INSERM, U1099, France; 4LTSI, France
M12-38 Feasibility Study on Aperture Based Low-Dose CT
S. Abbas, T. Lee, S. Cho, KAIST, Korea
M12-39 Low Dose CT Image Restoration Using a Localized Patch
Database
S. Ha, K. Mueller, stony brook university, USA
M12-40 Development of PET/MRI with Insertable PET for
Simultaneous Imaging of Human Brain
J. H. Jung1, Y. Choi1, J. Jung1, S. Kim1, H. K. Lim1, K. C. Im1, H.-J. Choe1, C. H.
Oh2, K. M. Kim3, J. G. Kim3, H.-W. Park2
1
Sogang University, Korea; 2Korea Advanced Institute of Science and
Technology, Korea; 3Korea Institute of Radiological and Medical Science, Korea
M12-41 Measurement of Energy and Timing Resolution of Very
Highly Pixellated LYSO Crystal Blocks with Multiplexed SiPM
Readout for Use in a Small Animal PET/MR Insert
C. J. Thompson, Montreal Neurological Institute, Canada; A. L. Goertzen,
J. D. Thiessen, Univ. of Manitoba, Canada; D. Bishop, TRIUMF, Canada; F.
Retiere, P. Kazlowski, G. Stortz, V. Sossi, Univ.of British Columbia, Canada
M12-42 First PET Performance Evaluation of the World’s First
Preclinical PET/MR Insert with Fully Digital Silicon Photomultiplier
Technology
D. Schug1, C. Lerche2, B. Weissler1,2, P. Gebhardt3, B. Goldschmidt1, A.
Salomon3, J. Wehner1, P. M. Dueppenbecker2, F. Kiessling4, V. Schulz2
1
RWTH Aachen University, Germany; 2Philips Technologie GmbH Innovative
Technologies, Germany; 3King’s College London, England; 4RWTH Aachen
University Hospital, Germany
M12-43 Development of a Ring PET Insert for MRI
C. E. Bauer1, A. Stolin1, J. Proffitt2, P. Martone1, J. Brefczynski-Lewis1, J.
Lewis1, J. Hankiewicz3, R. Raylman1, S. Majewski1
1
West Virginia University, USA; 2Ait_Instruments, USA; 3University of
Colorado- Colorado Springs, USA
M12-44 Simultaneous ToF-PET/MR Whole-Body Imaging: Initial
Performance Results of an SiPM-Based ToF-PET System Integrated
with 3T MRI
C. S. Levin, Stanford University School of Medicine, USA; W. T. Peterson, S.
H. Maramraju, T. Deller, C. L. Kim, D. L. McDaniel, GE Healthcare, USA
M12-45 One-Pair Prototype Integrated System of DOI- PET and the
RF-Coil Specialized for Simultaneous PET-MRI Measurements
F. Nishikido1, T. Obata1, N. Inadama1, E. Yoshida1, M. Suga2, K. Shimizu2, A.
Tachibana1, H. Ito1, T. Yamaya1
1
M12-46 A New Electromagnetic Shielding Material for Insertable
PET in Dual-Modality PET-MRI
H. K. Lim, Y. Choi, J. H. Jung, J. Jung, Sogang University, Korea; K. M. Kim,
J. G. Kim, Korea Institude of Radiological and Medical Science, Korea; C.
Oh, H.-W. Park, Korea Advanced Institude of Science and Technology, Korea
M12-47 RF Interference Reduction for Simultaneous Digital
PET/MR Using an FPGA-Based, Optimized Spatial and Temporal
Clocking Distribution
P. Gebhardt1,2, J. Wehner3, B. Weissler2,3, F. Kiessling3, P. K. Marsden1, V.
Schulz2,3
1
Kings’ College London, United Kingdom; 2Philips Research Europe,
Germany; 3RWTH Aachen University, Germany
M12-48 Investigation of 3T MR Image Qualities with SiPM-PET
Insert Using Short Optical Fiber Bundle for fMRI and H-1 MR
Spectroscopy
H. G. Kang, S. J. Hong, Eulji University, South Korea; G. B. Ko, J. S. Lee, I. C.
Song, Seoul National University, South Korea; J. T. Rhee, Konkuk University,
South Korea
M12-49 Image Processing Methods for PET/MR Multi-Modality
Imaging: Initial Study Regarding Binding of MR Images
R. C. Conceicao, J. L. Tourais, L. S. Canas, Instituto de Biofisica e
Engenharia Biomedica, Portugal; G. Delso, University Hospital of Zurich,
Switzerland; L. Caldeira, Forschungszentrum Juelich, Germany
M12-50 Evaluation of MR Acquisition Strategies for MR-Based PET
Attenuation Correction
S. Ambwani1, S. D. Wollenweber1, S. Kaushik2, F. Wiesinger3, D.
Shanbagh2, G. K. von Schulthess4, P. Veit-Haibach4, G. Delso1
1
GE Healthcare, USA; 2GE Global Research, India; 3GE Global Research,
Germany; 4University Hospital, Switzerland
M12-51 Probabilistic Neural Network Segmentation of MR Images
in View of PET/MR Attenuation Correction
E. Rota Kops1, A. Santos Ribeiro2, H. Hautzel3, H. Herzog1
1
Research Center Juelich, Germany; 2University of Lisbon, Portugal;
3
Heinrich-Heine-University Duesseldorf, Germany
M12-52 A MRI-Based PET Attenuation Correction with μ-Values
Measured by a Fixed-Position Radiation Source
H. Kawaguchi1, Y. Hirano1, E. Yoshida1, M. Suga2, T. Shiraishi1, K.
Tanimoto1, Y. Kimura1, T. Obata2, H. Ito1, T. Yamaya1
1
National Institute of Radiological Sciences, Japan; 2Chiba University,
Japan
M12-53 Proposal of a New OpenPET Based Simultaneous WholeBody PET/CT Geometry
Y. Yin1, H. Tashima2, E. Yoshida2, T. Kon1, T. Obi1, T. Yamaya2
1
Tokyo Institute of Technology, Japan; 2National Institute of Radiological
Science, Japan
M12-54 Development of an Optical Fiber Based MR Compatible
Gamma Camera for SPECT/MRI System
S. Yamamoto1, H. Watabe2, T. Watabe3, Y. Kanai3, K. Kato1, Y. Yano4, J.
Hatazawa2
1
Nagoya University Graduate School of Medicine, Japan; 2Tohoku
Univerisity, Japan; 3Osaka University Graduate School of Medicine, Japan;
4
Osaka University, Graduate school of Engineering, Japan
Thursday
M12-55 Evaluation of an MR Compatible SPECT Insert for
Simultaneous SPECT-MR Imaging of Small Animals
A. J. Rittenbach1, J. Xu1, A. El-Sharkawy1, W. Edelstein1, K. Parnham2, J.
Hugg3, B. M. W. Tsui1
1
Johns Hopkins University, USA; 2TriFoil Imaging, USA; 3Gamma Medica, USA
M12-56 Design Optimization and Evaluation of a Human Brain
SPECT-MRI Insert Based on High-Resolution Detectors and Slit-Slat
Collimators
K. Erlandsson1, D. Salvado1, A. Bousse1, B. F. Hutton1,2
1
University College London, UK; 2University of Wollongong, Ausralia
M12-57 Optimization of a Stationary Small Animal SPECT System
for Simultaneous SPECT/MRI
R. Van Holen, S. Vandenberghe, Ghent University, Belgium
M12-58 EndoTOFPET-US: Towards a Multi-Modal Endoscope for
Ultrasound and Time of Flight PET
M. Pizzichemi, University of Milano Bicocca, Italy
On behalf of the EndoTOFPET-US collaboration
M12-59 Development of a Proof of Concept System for MultiModal Compatible PET: Flexible PET
M. Furuta, M. Sato, J. Ohi, H. Tonami, T. Furumiya, T. Tsuda, M. Nakazawa,
N. Hashizume, T. Kobayashi, K. Kitamura, Shimadzu Corp., Japan
M12-60 Less Radiation Exposure to Patients in 18F FDG PET/
CT Test: Experiments with Phantoms and Thermoluminescent
Dosimeters
H. Lee, G. Koh, K.-H. Hwang, Gil Hospital, Gachon University, South Korea
M13 Simulation and Modeling
Session Chairs: Taek-Soo Lee, Johns Hopkins University, United States
MinJae Park, Universitätsklinikum Würzburg,
Nuklearmedizin, Germany
M13-1 Comparison of Monolithic and Pixelated Detectors for
Small Animal PET Scanners
S. Espana, R. Marcinkowski, S. Vandenberghe
Ghent University-iMinds-IBiTech, Belgium
M13-2 Simulation of Triple Coincidences in PET
J. Cal-Gonzalez, E. Herranz, E. Vicente, J. M. Udias, Universidad
Complutense Madrid, CEI Moncloa, Spain; S. R. Dave, V. Parot, E. Lage, J.
L. Herraiz, Madrid-MIT M+Vision Consortium, Massachusetts Institute of
Technology, USA
M13-3 Impact of PET Crystal Surface Treatment and Calibration
Method on DOI Positioning Accuracy: a Simulation Study
P. Fan1,2, S. Wang1,2, Y. Liu1,2, Z. Lv1,2, K. Ying1,2, T. Ma1,2
1
M13-4 Simulation Study of the DOI-PEM Scanner
S. Kobayashi, Saga University, Japan; T. Yamamoto, F. Kajino, Konan
University, Japan
M13-5 Ray-Tracing Simulation of a Depth-Encoding PET Detector
Array
Y. Huh1,2, Y. Choi1, J. Kang3, Y. H. Chung4, B.-T. Kim2
1
Sogang University, Korea; 2Sungkyunkwan University, Korea; 3Samsung
Electronics Co., LTD., Korea; 4Yonsei University, Korea
M13-6 Intrinsic Background Suppression Using Time of Flight
Information in Low Dose PET
G. Patay, P. Major, Mediso Medical Imaging Systems Ltd., Hungary
M13-7 Scatter and Random Corrections for the quadHIDAC Small
Animal PET Scanner Using GEANT4 Simulations
D. Vernekohl1, K. Schaefers2, T. Koesters3, F. Wuebbeling4, J. P. Wessels1
1
Institute for Nuclear Physics, Germany; 2European Institute for Molecular
Imaging, Germany; 3Department of Radiology, USA; 4Department of
Mathematics, Germany
M13-8 New Particle Navigator for Hybrid Voxelized/analytical
Phantoms in Monte Carlo Simulations for Medical Applications
J. Bert, Y. Lemarechal, N. Boussion, D. Visvikis
LaTIM - INSERM UMR1101 - CHRU Brest, France
M13-9 Automatic Multithreading Refactoring of GATE
P. Torres-Tramon, D. Aburto-Vivians, F. R. Rannou
University of Santiago of Chile, Chile
M13-10 A New Design of Neuro-PET Improving Sensitivity
H. Shin1, Y. Choi1, Y. H. Huh1,2, J. H. Jung1
1
Sogang University, Republic of korea; 2Sungkyunkwan University, Republic
of korea
M13-11 Tube of Response Sensitivity Variations in a Full FOV
Rectangular PET System
L. A. Pierce, P. E. Kinahan, L. R. MacDonald
University of Washington, Seattle, USA
M13-12 PET-SORTEO: a NEMA NU 4-2008 Validated Monte Carlo
Simulation Platforms for the SIEMENS Preclinical Scanners
A. Reilhac1,2, A. Goertzen3, F. Boisson1,2, C. Wimberley1,2, P. Callaghan1,2, A.
Parmar1,2, D. Zahra1, H. Hamze1, M.-C. Gregoire1,2
1
ANSTO, Australia; 2University of Sydney, Australia; 3University of Manitoba,
Canada
M13-13 Generation of Realistic SPECT Images with New GATE
Output Capacities
M.-P. Garcia1, D. Villoing1, E. McKay2, L. Ferrer3, H. Der Sarkissian3, M.
Poirot1, M. Bardies1
1
UMR 1037 INSERM/UPS, France; 2St George Hospital, Australia; 3ICO Rene
Gauducheau, France
M13-14 Image-Quality Effects of System-Matrix-Formation
Statistics in SPECT Iterative Reconstruction
J. Strologas1, S. Metzler2, X. Zheng2, W. Chang1
1
Rush University Medical Center, USA; 2University of Pennsylvania, USA
M13-15 GEANT4 Simulation of a Single Photon Imaging System for
Conscious Small Animal Imaging
D. A. Prokopovich1, A. L. McNamara2, D. Boardman1, W. Ryder2, A. Z.
Kyme2, G. Angelis2, F. Boisson1, M. I. Reinhard1, S. R. Meikle2
1
2
M13-16 Model-Based Crosstalk Estimation for Siemens IQ-SPECT
with SMARTZOOM Collimator
Y. Du1, M. Bhattacharya2, E. C. Frey1
1
Johns Hopkins Medical Institutions, USA; 2Siemens Medical Solutions, USA
M13-17 Evaluation of the Local Shift-Invariance Approximation in
Pinhole SPECT
L. R. V. Pato, B. Vandeghinste, S. Vandenberghe, R. Van Holen
MEDISIP, Ghent University-iMinds-IBiTech, Belgium
M13-18 Configuration Optimization for Multi-Pinhole MicroSPECT Systems by Signal Detection Tasks and System Performance
Evaluations
M.-W. Lee, W.-T. Lin, Y.-C. Chen
National Central University, Taiwan
M13-19 Effect of Collimator Design and Anode Dimensions on
Gamma-Cameras Based on Pixelated CdZnTe
M. E. Myronakis, M. Zvelebil, D. G. Darambara
Institute of Cancer Research, UK
M13-20 Design and Evaluation of a Breast Specific Collimator
Using Response Surface Methodology and Monte Carlo
Simulations
D. Talat, A. Guvenis, Bogazici University, Turkey
M13-21 Analytical Simulation Platform Describing Projections in
Computed Tomography Systems
H. Youn, J. C. Han, S. Yun, S. Kam, H. K. Kim
Pusan National University, Republic of Korea
Thursday
M13-22 A Fast and Hardware Mimicking Analytic CT Simulator
H. Ghadiri1, M. B. Shiran1, H. R. Soltanian-Zadeh2, A. Rahmim3, M. R. Ay1
1
Tehran University of Medical Sciences, Iran; 2University of Tehran, Iran;
3
M13-23 Breast CT Image Simulation Framework for Optimisation
of Lesion Visualisation
O. Diaz1, P. Elangovan1, S. Enshaeifar1, P. Seller2, S. Pani1, K. Wells1
1
University of Surrey, UK; 2Rutherford Appleton Laboratory, UK
M13-24 Neutron Stimulated Emission Computed Tomography for
Brain Cancer Imaging
D. J. Rhee, A. Kapadia, G. Agasthya, Duke University, USA
M13-25 Analytic Modeling of Energy-Absorption Response
Functions Including Charge Transport Considerations in
Photoconductor-Based X-Ray Detectors
S. Yun1, H. K. Kim1, H. Youn1, J. Tanguay2, I. A. Cunningham2
1
Pusan National University, Korea; 2Robarts Reserach Institute, Canada
M13-26 Numerical Investigation of a Non-Interferometric GratingBased X-Ray Imaging System
R. Zhang1,2, L. Zhang1,2, Z. Chen1,2
1
M13-27 An Approach to System Optimization for X-Ray PhotonCounting Systems Using Performance on a Detection/Localization
Task
Y. Lu, H. Zhang, Z. Liang, G. Gindi
Stony Brook University, US
M13-28 The Simulation of a Fast Fan-Beam Dual-Energy X-Ray
Absorptiometry for Forearm
L. Li, C. Li, Z. Chen
M13-29 A Software Tool for on Field Spectrometry of Diagnostic
X-Ray Beams
L. Andreani1,2, M. Bontempi3,4, P. L. Rossi2, L. P. Rignanese2, M. Zuffa1, G.
Baldazzi1,2
1
INFN, Italy; 2University of Bologna, Italy; 3Istituto Ortopedico Rizzoli, Italy;
4
Centro Fermi, Italy
M13-30 Integrating a Three-Dimensional Spatiotemporal Glioma
Model with a PET Simulation System to Create Patient-Specific
FMISO Images
R. L. Harrison1, J. Jacobs2, B. F. Elston1, A. M. Alessio1, D. Byrd1, R. C.
Rockne2, A. Hawkins-Daarud2, M. Muzi1, P. R. Jackson2, K. R. Swanson2, P.
E. Kinahan1
1
University of Washington, USA; 2Northwestern University, USA
M13-31 Characteristics of Bremsstrahlung Emissions from
Radionuclide Therapy Isotopes
C. F. Uribe1, P. L. Esquinas1, H. Piwowarska-Bilska2, D. Pawlak3, R.
Mikolajczak3, B. Birkenfeld2, A. Celler1
1
University of British Columbia, Canada; 2Pomeranian Medical University,
Poland; 3National Centre for Nuclear Research, Radioisotope Centre
POLATOM,, Poland
M13-32 Effect of Noise Level, Administered Activity and Body
Habitus on Detection of Renal Function Defect in Pediatric
Diagnostic Imaging of 99mTc-Dimercaptosuccinic Acid
T.-S. Lee1, W. E. Bolch2, S. T. Treves3, G. Sgouros1, E. C. Frey1
1
Johns Hopkins University, USA; 2University of Florida, USA; 3Boston
Childrens Hospital, USA
M13-33 A Realistic Digital Phantom for Perfusion C-Arm CT Based
on MRI Data
A. Aichert1,2, M. Manhart2, B. K. Navalpakkam2, R. Grimm2, J. Hutter2, A.
Maier2, J. Hornegger2, A. Doerfler1
1
Universitaetsklinikum Erlangen, Germany; 2Friedrich-AlexanderUniversitaet Erlangen-Nürnberg, Germany
Notes
217
Thursday
Notes
218 Thursday
Notes
219
Thursday
Notes
220 Thursday
Notes
221
07:00
MIC RC3
07:30
08:00
Friday, 1 November
GBR 101-102
GBR 103
08:30
09:00
09:30
10:00
M14: New Detector Materials
and Technologies / SPECT
Instrumentation
M15: Image Reconstruction II
10:30
11:00
11:30
12:00
12:30
13:00
13:30
14:00
14:30
15:00
15:30
M19: Student Competition
16:00
16:30
17:00
17:30
18:00
18:30
M16: Emission Tomography
Instrumentation 2 / Front
End and Data Acquisition
Electronics
M22: Image Reconstruction II /
Other Imaging Technologies II
M21: Imaging in Therapy /
New Detector Materials and
Technologies
M20: Other Imaging
Technologies II
Hall B2 (posters)
M17: Image Reconstruction
Methods I
Quantitative Imaging II / Tracer
Kinetics
MIC RC4
Hall B2 (posters)
Quantitative Imaging I / Signal
and Image Processing
R15: CdZnTe and CdTe
Hall B2 (posters)
Hall E1&E2
19:00
Friday
Harmony Ballroom
(COEX Intercont.
Hotel)
19:30
MIC Dinner
222 222
Friday
Friday - MIC Oral Presentations
M14 New Detector Materials and Technologies
/ SPECT Instrumentation
Friday, Nov. 1 08:00-10:00 GBR 101-102
Session Chairs: Suleman Surti, University of Pennsylvania, USA
Scott D. Metzler, University of Pennsylvania, USA
M14-1 (08:00) Beta-Particle Digital Autoradiography with the iQID
Camera
B. W. Miller1, J. Orozco2,3, A. Kenoyer2, D. R. Fisher1, M. Bliss1, L. R.
Furenlid4, D. K. Hamlin3, D. S. Wilbur3, E. Balkin3, M. D. Hylarides2, B. M.
Sandmaier2,3, O. W. Press2, J. M. Pagel2,3
1
Pacific Northwest National Laboratory, USA; 2Fred Hutchinson Cancer
Research Center, USA; 3University of Washington, USA; 4The University of
Arizona, USA
M14-2 (08:15) Performance of a Novel, Small-Cell, High-Fill-Factor
SiPM for TOF-PET
C. Piemonte, A. Ferri, A. Gola, N. Serra, A. Tarolli, N. Zorzi, FBK, Italy
M14-3 (08:30) Effects of DCR, PDP and Saturation on the Energy
Resolution of Digital SiPMs for PET
L. Huf Campos Braga, M. Perenzoni, D. Stoppa, FBK, Italy
M14-4 (08:45) Line-Spread Function and Noise Spectrum Analysis
of a Direct-Detection X-Ray CMOS Image Sensor with 500 μm Thick
High Resistivity Silicon
T. Hatsui1,2, S. Ono1, M. Omodani2, T. Kudo1, K. Kobayashi1,2, Y. Kirihara1
1
RIKEN, Japan; 2JASRI, Japan
M14-5 (09:00) Evaluation of a Compact, General-Purpose
Germanium Gamma Camera
D. L. Campbell1, E. Hull2, T. E. Peterson1
1
Vanderbilt University, USA; 2PHDs Co., USA
M14-6 (09:15) Preliminary Investigation of Imaging Properties for
Sub-Millimeter Square-Pinholes
D. Xia1, M.-A. Park2, S. C. Moore2, S. D. Metzler1
1
University of Pennsylvania, USA; 2Brigham & Women’s Hospital and
Harvard Medical School, USA
M14-7 (09:30) Performance Characterisation of a Compact SPECT
Detector Based on dSiPMs and Monolithic LYSO
C. Bouckaert, K. Deprez, S. Espana, S. Vandenberghe, R. Van Holen
MEDISIP - Ghent University - iMinds, Belgium
M14-8 (09:45) Artificial Compound-Eye Gamma Camera for SPECT
Imaging
X.-C. Lai, L.-J. Meng, University of Illinois at Urbana-Champaign, USA
M15 Image Reconstruction II
Friday, Nov. 1 08:00-10:00 GBR 103
Session Chairs: Jinyi Qi, University of California, Davis, United States
Seungryong Cho, KAIST, South Korea
M15-1 (08:00) Constrained Nonconvex TpV-Minimization for
Image Reconstruction with Extremely Sparse Projection View
Sampling in CT
E. Y. Sidky1, R. Chartrand2, X. Pan1
1
University of Chicago, USA; 2Los Alamos National Laboratory, USA
M15-2 (08:15) A Non-Local Total Variation Constrained
Reconstruction Method for Clinical Cone-Beam CT
J. Hao1,2, L. Zhang1,2, X. Jin1,2, K. Kang1,2
1
Friday - MIC Oral Presentations 223
Friday
M15-3 (08:30) A Comparison Study of Total Variation Stokes
Strategy for Low-Dose CT Image Reconstruction
Y. Liu1, H. Lu2, K. Wang1, H. Zhang1, Z. Liang1
1
Stony Brook University, USA; 2Fourth Military Medical University, China
M15-4 (08:45) Low-Dose Limited View 4D CT Reconstruction Using
Patch-Based Low-Rank Regularization
K. S. Kim, J. C. Ye, KAIST, South Korea
M15-5 (09:00) Metal Artifact Reduction Based on Multi-Level
Sinogram Segmentation and Sequentially Applied MAP-EM
Reconstruction Method
U. Tuna, D. Us, U. Ruotsalainen, Tampere University of Technology, Finland
M15-6 (09:15) The Importance of the Statistical Assumption in
Statistical X-Ray CT Image Reconstruction
J. Xu, B. M. Tsui, Johns Hopkins University, USA
M15-7 (09:30) MRI Guided Myocardial Perfusion PET Image
Reconstruction
J. Tang, T. Doan, W. Geng, Oakland University, United States; L. Lu, Southern
Medical University, China; A. Rahmim, Johns Hopkins University, USA
M15-8 (09:45) TOF Versus Non-TOF PET for the Quantification of
Cardiac Defects
S. Mahmood1, K. Erlandsson2, D. R. McGowan3, D. Yatigammana4, H.
Zolfagharinia4, R. Wise5, A. Divoli6, I. Murray6, H. Williams7, M. Talboys8, K.
Kenny3, M. Holubinka4
1
University of Malta, Malta; 2University College London, UK; 3Oxford
University Hospitals NHS Trust, UK; 4Portsmouth Hospitals NHS Trust, UK;
5
Imperial College Healthcare NHS Trust, UK; 6Royal Marsden Hospital, UK;
7
Central Manchester University Hospitals, UK; 8Cardiff and Vale UHB, UK
M19 Student Competition
Friday, Nov. 1 14:00-16:00 GBR 101-102
Session Chairs: Vesna Sossi, University of British Columbia,
John N. Aarsvold, Atlanta Veterans Affairs Medical
Center & Emory University, United States
M19-1 (14:00) Investigation of the Effects of Scintillator
Pixel Shape, Surface Treatment and Optical Coupling on the
Performance of Si-PM Based BGO Detectors
Y. Valenciaga, D. L. Prout, A. F. Chatziioannou, UCLA, USA
M19-2 (14:15) First Performance Tests of Digital SiPMs in Prompt
Gamma Imaging with a Knife-Edge Slit Camera for Proton Range
Verification
P. Cambraia Lopes1,2,3, E. Clementel4, P. Crespo2,5, S. Henrotin6, J.
Huizenga1, G. Janssens6, K. Parodi7,8, D. Prieels6, F. Roellinghoff6, J.
Smeets6, F. Stichelbaut6, D. R. Schaart1
1
Delft University of Technology, The Netherlands; 2Laboratrio de
Instrumentao e Fsica Experimental de Partculas, Portugal; 3Heidelberg
Ion-Beam Therapy Center, University Clinic of Heidelberg, Germany;
4
ICTEAM Institute, Universit Catholique de Louvain, Belgium; 5Universidade
de Coimbra, Portugal; 6Ion Beam Applications SA, Belgium; 7Heidelberg
University Clinic, Germany; 8Ludwig Maximilian University, Germany
M19-3 (14:30) Test of a Compton Imaging Prototype at the ELBE
Bremsstrahlung Beam
F. Hueso-Gonzalez1, C. Golnik1, M. Berthel1, A. Dreyer1, W. Enghardt1,2, F.
Fiedler2, K. Heidel2, T. Kormoll1, H. Rohling1, S. Schoene2, R. Schwengner2,
A. Wagner2, G. Pausch1
1
University Hospital TU Dresden, Germany; 2Helmholtz-Zentrum DresdenRossendorf, Germany
M19-4 (14:45) Total Least Squares with Spatial Constraint for
Parametric Image Construction Using Multilinear Simplified
Reference Tissue Model
S. Seo1,2, D. S. Lee2, J. S. Lee1,2
1
Seoul National University, South Korea; 2Seoul National University College
of Medicine, South Korea
224 Friday - MIC Oral Presentations Friday
M19-5 (15:00) Simultaneous Reconstruction of the Activity Image
and Registration of the CT Image in TOF-PET
A. Rezaei, J. Nuyts
UZ, Medical Imaging Research Center, Belgium
M19-6 (15:15) Accelerating Ordered Subsets with Relaxed
Momentum for X-Ray CT Image Reconstruction
D. Kim, J. A. Fessler, University of Michigan, USA
M19-7 (15:30) Variational Noise Reduction for Spectral CT: Insights
from the Perspective of Multiresolution Image Fusion
D. S. Rigie, P. J. La Riviere, University of Chicago, United States
M19-8 (15:45) Rigid Motion Compensation in Helical X-Ray CT
J.-H. Kim1, J. Nuyts2, Z. Kuncic1, R. Fulton1,3
1
University of Sydney, Australia; 2Katholieke Universiteit, Belgium;
3
Westmead Hospital, Australia
M20 Other Imaging Technologies II
Friday, Nov. 1 14:00-16:00 GBR 103
States
Ho Kyung Kim, Pusan National University, South
Korea
M20-1 (14:00) K-Edge Imaging with a Photon Counting CT System
M. Matsumoto, F. Kaibuki, K. Ogawa, Hosei University, Japan
M20-2 (14:15) Compensation for Spectral Distortions Due to
Spectral Response and Pulse Pileup Effects for Photon Counting CT
K. Taguchi, Johns Hopkins University, U.S.A.; K. Nakada, K. Amaya, Tokyo
Institute of Technology, Japan
M20-3 (14:30) Joint Estimation of Tissue Types and Linear
Attenuation Coefficients for Photon Counting CT
K. Nakada, K. Amaya, Tokyo Institute of Technology, JAPAN; K. Taguchi, G.
S. K. Fung, Johns Hopkins University, U.S.A.
M20-4 (14:45) Spectral CT Imaging with Hybrid Detectors in
Integrating and Dynamic-Threshold Counting Modes
L. Li, J. Chu, Z. Chen, W. Cong, G. Wang
M20-5 (15:00) Novel Results from a First Preclinical X-Ray PhaseContrast CT Scanner
A. Velroyen1, A. Tapfer1, A. Yaroshenko1, M. Bech1,2, M. Mueller1, B.
Pauwels3, J. Hostens3, P. Bruyndonckx3, X. Liu3, A. Sasov3, F. Pfeiffer1
1
Technische Universitaet Muenchen, Germany; 2Lund University, Sweden;
3
Bruker MicroCT, Belgium
M20-6 (15:15) Quantitative Tissue Characterization Using GratingBased X-Ray Phase-Contrast Imaging
M. Willner1, J. Herzen1,2, M. Viermetz1, M. Marschner1, G. Fior1, A. Hipp1,2,
M. Chabior1, A. Fingerle1, P. Noel1, C. Braun3, F. Fischer3, F. Pfeiffer4
1
Technische Universitaet Muenchen, Germany; 2Helmholtz-Zentrum
Geesthacht, Germany; 3Ludwig-Maximilian-Universitaet, Germany; 4,
M20-7 (15:30) Evaluation of Grating-Based Phase-Contrast
Tomography for Imaging of Human Soft Tissue Using Synchrotron
and Conventional X-Ray Sources
J. Herzen1,2, M. S. Willner2, A. Hipp1,2, P. B. Noel2, A. A. Fingerle2, H.
Hetterich3, T. Saam3, S. Fill3, S. Grandl3, A. Sztrokay3, K. Hellerhoff3, D.
Mayr3, F. Pfeiffer2
1
Helmholtz-Zentrum Geesthacht, Germany; 2Technische Universität
München, Germany; 3Ludwig-Maximilians-Universität München, Germany
M20-8 (15:45) Many-View under-Sampling (MVUS) Technique for
Low-Dose CT
T. Lee, S. Abbas, S. Cho
Korea Advanced Institute of Science and Technology, Korea
Friday - MIC Oral Presentations 225
Friday - RTSD Oral
Presentations
Friday
R15 CdZnTe and CdTe
Friday, Nov. 1 08:00-10:00 Hall E1&E2
Session Chairs: Ralph James, Brookhaven National Laboratory, United
States
Andrea Zappettini, IMEM-CNR, Italy
R15-1 (08:00, invited) Transient Current Technique - Useful Tool for
Characterization of Radiation Detectors
E. Belas, S. Uxa, R. Grill, P. Praus
Institute of Physics, Charles University, Czech Republic
R15-2 (08:20) Drift Time Dependent Interaction Depth Correction
in Coplanar Grid Detectors
C. Disch1, A. Fauler1,2, A. Zwerger2, M. Dambacher2, J. P. Balbuena1, M.
Fiederle1,2
1
Freiburger Materialforschungszentrum (FMF), Germany; 2X-ray Imaging
Europe (XIE), Germany
R15-3 (08:35) Spectral Resolution and Optimized Threshold
Equalization of a Charge Summing Hybrid Pixel Detector
E. Frojdh1,2, R. Ballabriga1, X. Llopart1, M. Campbell1
1
CERN, Switzerland; 2Mid Sweden University, Sweden
R15-4 (08:50) Electrical Properties of Indium Doped (Cd,Zn)Te
Grown by MTPVT
J. T. Mullins, J. E. Hails, J. R. Brown, M. Ayoub
Kromek Ltd., U.K.
R15-5 (09:05, invited) Performance Evaluation of Small Pixel High
Count Rate Detectors
A. Cherlin1, I. Radley1, P. H. Butler2,3,4, A. P. H. Butler2,5,4, S. T. Bell2, M. Clyne6
1
Kromek Ltd., U.K.; 2MARS Bioimaging, New Zealand; 3University of
Canterbury, New Zealand; 4CERN, Switzerland; 5University of Otago, New
Zealand; 6ILR Ltd., New Zealand
R15-6 (09:25) Performance of THM CdZnTe Devices for LargeVolume Spectroscopic and X-Ray Applications
S. A. Soldner, A. Emerick, B. W. Harris, M. Prokesch
R15-7 (09:40) Low Electronic Noise Digital ASIC Array System and
Its Non-Linearity
H. Yang, Z. He, University of Michigan, U.S.
R15-8 (09:55) Concluding Comments
Korea
226 Friday - RTSD Oral Presentations Friday
Friday - MIC Poster
Presentations
M16 Emission Tomography Instrumentation 2 /
Front End and Data Acquisition Electronics
Friday, Nov. 1 10:30-12:30 Hall B2
Session Chairs: Simon R. Cherry, University of California-Davis,
United States
Heejong Kim, University of Chicago, United States
M16-1 A Flexible Geometry High Sensitivity SPECT Scanner for
Molecular Imaging
K. L. Walker, J. Zhou, J. Qi, S. R. Cherry, G. S. Mitchell,UC Davis, USA
M16-2 High-Resolution Brain SPECT Imaging Using Parallel and
Tilted Detector Heads
A. Suzuki, W. Takeuchi, T. Ishitsu, Y. Ueno, Y. Morimoto, K. Kobashi
Hitachi, Ltd., Japan
M16-3 Introduction of a Novel Ultra-High Sensitivity Collimator for
Brain SPECT Imaging
M.-A. Park1, S. C. Moore1, R. Keijzers2, M. Keijzers2, M. F. Kijewski1
1
Brigham and Women’s Hospital and Harvard Medical School, USA;
2
Nuclear Fields USA, Corp., USA
M16-4 Optimizing Collimator Resolution/Sensitivity in SPECT
J. Strologas1, S. Metzler2, X. Zheng2, W. Chang1
1
Rush University Medical Center, USA; 2University of Pennsylvania, USA
M16-5 Performance Evaluation of High-Resolution Parallel-Hole
Collimator Materials at Sensitivity Equivalence
Y.-J. Lee, D.-H. Kim, H.-J. Kim, Yonsei University, Korea
M16-6 A Dual-Head Multi-Pinhole Collimator Design for Stationary
Clinical Myocardial Perfusion SPECT Imaging
P. Yan, G. S. P. Mok, C.-H. Si, University of Macau, China; B. M. W. Tsui,
M16-7 Effect of Surface Treatment on Light Transit Time in
Scintillator Crystals for PET
E. Roncali1, C. L. Kim2, D. L. McDaniel2, S. R. Cherry1
1
University of California-Davis, USA; 2General Electric Healthcare, USA
M16-8 Timing Properties of Phosphor Coated LSO Crystals for
Time-of-Flight, Depth-of-Interaction PET Detector Designs
J. P. Schmall, E. Berg, E. Roncali, V. Viswanath, J. Du, S. R. Cherry
University of California - Davis, USA
M16-9 Producing Artifact-Free Projection Overlaps with Baffles
J. Lin
Dept of Electrical and Computer Engineering, Curtin Univ., Australia
M16-10 Optimization of Compton Scatter Recovery for a SiPMBased Time-of-Flight (TOF) PET Scanner
M. Ito1, A. A. Wagadarikar2, V.-H. Tran1, C. Kim1, D. L. McDaniel1
1
GE Healthcare, USA; 2GE Global Research, USA
M16-11 Online Parameter Calibration for Energy Discrimination in
Trans-PET
X. Wu1,2, J. Zhu1,2, M. Niu1,2, Z. Hu3, Q. Xie1,2, P. Xiao1,2
1
Huazhong University of Science and Technology, China; 2Wuhan National
Laboratory for Optoelectronics, China; 3Raycan Technology Co.Ltd, China
M16-12 Software-Based Real-Time Acquisition and Processing of
Digital PET Detector Raw Data
B. Goldschmidt1, D. Schug1, P. Gebhardt2, F. Kiessling1, V. Schulz1,3
1
RWTH Aachen University, Germany; 2Kings College London, United
Kingdom; 3Philips Reseach, Germany
Friday - MIC Poster Presentations 227
Friday
M16-13 Potential SNR Gain in Whole Body PET by Combining TOF,
DOI and Smaller Detector Pixels
S. Vandenberghe, H. Thoen, V. Keereman, P. Mollet, S. Espana, R. Van
Holen, MEDISIP, Belgium
M16-14 Sensitivity Booster for DOI-PET by Utilizing Compton
Scattering Events Between Detector Blocks
E. Yoshida, H. Tashima, T. Yamaya
National Institute of Radiological Sciences, japan
M16-15 Simulation of Sensitivity and NECR of Entire-Body PET
Scanners for Different FOV Diameters
I. Isnaini, T. Obi, Tokyo Institute of Technology, Japan; E. Yoshida, T.
Yamaya, National Institute of Radiological Sciences, japan
M16-17 Sampling Criteria for Multiplexing Multi-Pinhole SPECT
K. Van Audenhaege, S. Vandenberghe, R. Van Holen
University of Ghent - iMinds, Belgium
M16-18 Two Millimeter Deep of Interaction on Continuous Crystal
for SPECT Application
A. Fabbri1,2, M. Galasso1,2, V. Orsolini Cencelli1,2, P. Bennati3,2, M. N. Cinti3,2,
1
M16-19 PET Timing Performance Measurement Method Using
NEMA NECR Phantom
G. C. J. Wang, X. Li, H. Du, K. Balakrishnan, X. Niu, J. Kolthammer, K. Burr
Toshiba Medical Research Institute USA, USA
M16-20 Field of View and Resolution Limits in Scintillation Gamma
Detectors
M. Galasso1,2, A. Fabbri1,2, V. Orsolini Cencelli1,2, P. Bennati3,2, M. N. Cinti3,2,
1
M16-21 Effect of Breamstrahlung Production on Scatter and Image
Resolution in Y-90 Imaging: Simulation Study
M. H. Kim1,2, Y. S. Lee1, S. K. Woo1, W. H. Lee2, K. M. Kim1
1
Korea Institute of Radiological and Medical Sciences, Republic of Korea;
2
Korea University, Republic of Korea
M16-22 Imaging Performance of the BNL PET Imaging System for
Plant Science
M. Budassi1, S. Stoll2, M. L. Purschke2, J. Fried2, B. Babst2, C. L. Woody2, P.
Vaska1,2, D. J. Schlyer2
1
Stony Brook University, USA; 2Brookhaven National Laboratory, USA
M16-23 A functional plant PET imager with controllable
environment and configurable geometry
Q. Wang1, A. Mathews2, K. Li2, J. Wen2, S. Komarov1, J. A. OSullivan2, Y.-C.
Tai1
1
Washington University in St. Louis School of Medicine, United States;
2
Washington University in St. Louis, United States
M16-24 3D Printing for Cost-Effective, Customized, Reusable
Multi-Modality Imaging Phantoms
M. F. Bieniosek, D. F. Hsu, C. S. Levin,
M16-25 Non-Uniform Gamma Ray Event Distribution in
Regionalized PET Detector
C. L. Kim, M. Ito, M. L. David, GE Healthcare, USA
M16-26 Production of Positron-Gamma Emitters for Multiplexed
PET (mPET) Imaging
J. L. Herraiz1, E. Lage1, V. Parot1, S. R. Dave1, J. M. Udias2, J. J. Vaquero3, A.
Munoz4, L. M. Fraile2
1
de Madrid, Spain; 3Universidad Carlos III de Madrid, Spain; 4Universidad
Autonoma de Madrid, Spain
M16-27 Production of Moly-99 at Low Power Nuclear Research
Reactors
C. Rangacharyulu, C. K. Roh, University of Saskatchewan, Canada; T.
Veerapaspong, S. Phonapha, Kasetsart University, Thailand
228 Friday - MIC Poster Presentations Friday
M16-28 176^Lu Effect on the Minimum Detectable Activity
Limitsfor a Dual Head, LSO:Ce Based, PET System
N. Efthimiou1, G. Loudos2, G. Panayotakis1
1
Univ. of Patras, GR; 2TEI of Athens, GR
M16-29 Graphical User Interface for Yields and Doses for Cyclotron
Tc-Production
X. Hou1, A. Celler1, M. Vuckovic2, F. Benard1,2, P. Schaffer1,3, T. Ruth2,3
1
University of British Columbia, Canada; 2BC Cancer Agency, Canada;
3
TRIUMF, Canada
M16-30 Assessment of Dedicated Brain PET Designs with Different
Geometries
H. Shi1,2, D. Du1, J. Xu3, Q. Peng1
1
Lawrence Berkeley National Laboratory, USA; 2Tsinghua University, China;
3
Huazhong University of Science and Technology, China
M16-31 Ideal Observer for Realistic Detection and Localization
Tasks: Application to Collimator Optimization in Myocardial
Perfusion SPECT
M. Ghaly, Y. Du, J. M. Links, E. C. Frey, Johns Hopkins University, USA
M16-32 Optical Encoding and Multiplexing with Dual Threshold
Time-over-Threshold
A. M. Grant, C. S. Levin, Stanford University, USA
M16-33 A Pulse Width Modulation Readout Method for Densely
Packed Solid State Photodetectors
M. F. Bieniosek, K. J. Hong, C. S. Levin, Stanford University, USA
M16-34 Empirical Bayesian Energy Estimation for Multi-Voltage
Threshold Digitizer in PET
Z. Deng, Q. Xie, Huazhong University of Science and Technology, China
M16-35 A Data Acquisition System for PET Using Multi Voltage
Threshold Method
K. B. Kim, Y. Choi, G. Kim, J. H. Jung, S. Kim, S. Lee, Sogang University, Korea
M16-36 Enhanced MVT Digitizer in PET
W. Liu1,2, D. Xi1,2, C. Zeng1,2, X. Liu1,2, Q. Xie1,2
1
Huazhong University of Science and Technology, China; 2Wuhan National
Laboratory for Optoelectronics, China
M16-37 Development of Accurate Non-delay Line Constant Fraction
Discriminator Based on Pade Approximation for PET Scanner
S. Y. Kim, G. B. Ko, S. I. Kwon, J. S. Lee
Seoul National University College of Medicine, South Korea
M16-38 A 16-Channel FPGA-Based Time-to-Digital Converter for
Pulse Width Modulation Circuitry for Silicon Photomultiplier Readout
K. J. Hong1, M. F. Bieniosek1,2, E. Kim1,2, C. S. Levin1,2
1
Stanford University School of Medicine, United States; 2Stanford University,
United States
M16-39 A 40-Channel 20-ps Dual Tapped Delay Line Timeto-Digital Converter (TDC) Implemented in a High-End FieldProgrammable Gate Array (FPGA)
J. Y. Won, S. I. Kwon, H. S. Yoon, G. B. Ko, J. S. Lee
Seoul National University College of Medicine, Korea
M16-40 High-Resolution Multichannel Time-to-Digital Converter
Core Implemented in FPGA for ToF Measurements in SiPMs Based
PET Systems.
J. Torres, A. Aguilar, R. Garcia-Olcina, J. Soret, J. Martos, University of
Valencia, Spain; J. M. Benlloch, F. Sanchez, A. J. Gonzalez, P. Conde, L.
Hernandez, Institute for Instrumentation in Molecular Imaging, Spain
M16-41 An Improved Method of FPGA-Based TDC for Time-ofFlight PET
D. Kim, Y. Choi, S. Lee, Sogang University, Korea
M16-42 A PET Detector Interface Board and Slow Control System
Based on the Raspberry Pi
A. L. Goertzen1, J. D. Thiessen1, D. Bishop2, P. Kozlowski3, F. Retiere2, V.
Sossi3, G. Stortz3, C. J. Thompson4
1
University of Manitoba, Canada; 2TRIUMF, Canada; 3University of British
Columbia, Canada; 4Montreal Neurological Institute, Canada
Friday
M16-43 Miniaturized Multi-Channels SiPM Read-Out Electronics
for the Development of Compact Gamma Cameras
V. Vandenbussche1, T. Imando2, N. Dinu2, L. Pinot1, S. Callier2, B. Janvier1,
D. Cuisy2, P. Dinaucourt2, M. Gaspard2, V. Puill2, L. Raux2, R. Sliwa2, S.
Trochet2, N. Hudin1, Y. Charon1, M.-A. Duval1, M.-A. Verdier1, L. Menard1
1
Laboratoire IMNC, IN2P3-CNRS, University Paris Diderot, France;
2
Laboratory of Linear Accelerator, IN2P3-CNRS, France
M16-44 Development of Compact Analog Electronics for Timeof-Flight PET Detector with High Quantum Efficiency Multi-Anode
PMTs
J. W. Son, G. B. Ko, H. S. Yoon, M. S. Lee, S. I. Kwon, J. S. Lee
Seoul National University College of Medicine, Korea
M16-45 Development of a New Position Decoder Circuit for PET
Consisting of GAPD Arrays to Recover Inter-Crystal Scattered
Events
H.-J. Choe, Y. Choi, J. H. Jung, G. Kim,
Sogang University, Korea
M16-46 Read-Out Electronics for Digital Silicon Photomultiplier
Modules
H. Noeldgen, A. Erven, L. Jokhovets, G. Kemmerling, M. Ramm,
M. Streun, S. van Waasen, Forschungszentrum Juelich, Germany; C.
Degenhardt, Y. Haemisch, B. Zwaans, Philips Digital Photon Counting,
Germany
M16-47 Low Intensity Fluorescence Light Measurements Using
Silicon Photomultiplier with Dedicated Front-End ASIC
M. Baszczyk, P. Dorosz, S. Glab, L. Mik, W. Kucewicz, AGH University
of Science and Technology, Poland; R. Szczypinski, Nalecz Institute of
Biocybernetics and Biomedical Engineering Polish Academy of Sciences,
Poland
M16-48 Evaluation of the FlexToT ASIC on the Readout of SiPM
Matrices and Scintillators for PET
J. Castilla1, J. M. Cela1, A. Comerma2, J. M. Fernandez-Varea2, L. Freixas1,
L. Garrido2, D. Gascon2, J. Marin1, G. Martinez1, J. M. Perez1, P. RatoMendes1, I. Sarasola1
1
CIEMAT, Spain; 2Universitat de Barcelona, Spain
M16-49 EndoTOFPET-US DAQ, Designing the Data Acquisition
System of a High Resolution Endoscopic PET-US Detector
C. Zorraquino1, R. Bugalho1, M. Rolo1, J. C. Silva1, V. Vecklans1, R. Silva1, C.
Ortigo1, J. Neves1, S. Travernier2, J. Varela1
1
LIP, Portugal; 2VUB, Belgium
M16-50 FPGA Based Multi-Channel Data Acquisition System for
Prototype in-Beam PET
E. Min1, Y. Kim2, H.-I. Kim3, K. Kim1, H. Lee1, S. Bae1, S. J. An3, Y. H. Chung3,
J. Joung2, K. Lee1
1
Korea University, Korea; 2Nucare Medical Systems, Korea; 3Yonsei
University, Korea
M16-51 Development of a 40-Channel, High-Speed PET Data
Acquistion System with Interchangeable Input Modules
H. S. Yoon, J. S. Lee
Seoul National University College of Medicine, South Korea
M16-52 Design of Data Acquisition System to Reduce Count Rate
Losses in a PET Scanner
L. V. Romanov, D. L. McDaniel, P. F. Holtermann, J. E. Widen
GE Healthcare, United States
M16-53 Characterization of PET Data Acquisition System with
Compressed Sensing Detectors
C.-M. Chang, E. Kim, P. D. Olcott, K.-J. Hong, C. S. Levin
M16-54 Development and Evaluation of Modular 64-Ch ASICFPGA Front-End Readout Electronics and Scalable DAQ System for
Silicon-Photomultiplier-Array Based PET Applications
X. Sun1, K. A. Lan1, D. Zhi2, X. Zhu2, Y. Shao1
1
UT MD Anderson Cancer Center, United States; 2Tsinghua University, China
M16-55 A High Resolution Event Positioning Circuit and Data
Acquisition System for Preclinical PET
S. Lee, Y. Choi, Sogang University, Korea; J. Kang, Samsung Electronics Co.,
LTD., Korea
M16-56 A TOF PET Detector Development Using Waveform
Sampling and Strip-Line Based Data Acquisiton
H. Kim, C.-T. Chen, C.-M. Kao, University of Chicago, U.S; A. Ronzhin, E.
Ramberg, S. Los, P. Murat, Fermi National Accelerator Laboratory, U.S; S.
Majewski, West Verginia University, U.S
M16-57 20-24bit Ultra-High Resolution Parallel Readout Photon
Counting ASIC for Hybrid X-Ray Detectors
S. Y. Soh, J. H. Park, K. S. Hong, A. Han, Y. J. Kim, M. J. Soh
Luxen Technologies, Inc., Korea, Rep. of
M16-58 SENSROC5: a 16-Channel Radiation-Hardness Low-Noise
Front-End ASIC Dedicated to CZT Detectors for X-Ray and γ-Ray
W. Gao, D. Gao, T. Wei, Northwestern Polytechnical University, China; Y. Hu,
UMR 7178 CNRS/UDS, France
M16-59 Data Acquisition Based on Real-time Digital Signal
Processing for Three-dimensional Position-sensitive CdTe Detector
in High-resolution Brain PET Scanner
Y. Kikuchi, K. Ishii, A. Terakawa, S. Matsuyama, A. Ahmed, S. Takyu
Tohoku University, Japan
M17 Image Reconstruction Methods I
Session Chairs: Michel Defrise, Dept. of Nuclear Medicine, Vrije
Universiteit Brussel, Belgium
Chi Liu, Yale University, United States
M17-1 Joint Estimation of Activity Image and Attenuation
Sinogram Using TOF PET Data Consistency Filtering
H. Li1,2, G. El Fakhri2, Q. Li2
1
boston university, US; 2Mass General Hospital, US
M17-2 Impact of Out-of-Field Activity in MLAA Estimation of Lung
Attenuation for PET/MR
Y. Berker1, A. Salomon2, F. Kiessling3, V. Schulz1,2
1
RWTH Aachen University, Germany; 2Philips Technologie GmbH Innovative
Technologies, Research Laboratories, Germany; 3RWTH Aachen University
Hospital, Germany
M17-3 Penalized Likelihood PET Image Reconstruction Using
Isotropic Total Variation
G. Wang, J. Qi, University of California, Davis, USA
M17-4 A Line Process Approach to Penalized Maximum-Likelihood
Reconstruction for 3D SPECT
L. Arrowood, S. Lee, J. Gregor
University of Tennessee, USA
M17-5 Comparison of Numerical Convergence Speeds of
Convergent and Accelerated Algorithms for Penalized Likelihood
PET Image Reconstruction
L. Cheng, E. Asma, S. Ahn, R. Manjeshwar
GE Global Research, United States
M17-6 Direct Reconstruction of CT-Based Attenuation Correction
Images for PET with Cluster-Based Penalties
S. M. Kim1, A. M. Alessio1, B. De Man2, E. Asma2, P. E. Kinahan1
1
University of Washington, USA; 2General Electric Global Research Center,
USA
M17-7 A Penalized Weighted Least-Squares Image Reconstruction
based on Scatter Correction Methods for X-ray CT
L. Chen, T. Rodet, N. Gac
Laboratoire des Signaux et Systemes (L2S), Supelec, France
Friday
M17-8 Structural Prior Enhanced Compressed Sensing for CT
Reconstruction with Incomplete Data
L. Shen1,2, Y. Xing1,2, X. Jin1
1
M17-9 Wavelet-Based Regularization Strategies Within the 3D
List-Mode MLEM Reconstruction Process, for High Resolution Small
Animal PET Data
L. Ortega Maynez, H. D. J. Ochoa Dominguez, O. O. Vergara Villegas, V. G.
Cruz Sanchez, J. M. Meja Munoz, UACJ, Mexico
M17-10 Maximum a Posterior Reconstruction for Positron
Emission Mammography
B. Bai, University of Southern California, U.S.A; M. Dahlbom, University of
California, U.S.A; W. Luo, Naviscan Inc., U.S.A
M17-11 Optimization of Regularization Parameter in
Reconstruction Algorithm
M. Abdalah, D. Mitra, S. Chen, Florida Institute of Technology, USA; R.
Boutchko, G. T. Gullberg, Lawrence Berkeley National Laboratory, USA
M17-12 Dynamic PET Image Reconstruction Using a SpatialTemporal Edge-Preserving Prior
Z. Bian, J. Ma, L. Lu, J. Huang, H. Zhang, W. Chen
Southern Medical University, China
M17-13 A Mathematical Proof of a Noise Weighted FBP
Reconstruction Algorithm
G. L. Zeng, University of Utah, USA; Y. Li, Utah Valley University, USA
M17-14 Effect of Subsets on Bias and Variance in Low-Count
Y. Jian, R. E. Carson, Yale University, United States
M17-15 Variance Prediction in SPECT Reconstruction Based on the
Fisher Information Using a Novel Angular Blurring Algorithm for
Computation of the System Matrix
A. Bousse1, K. Erlandsson1, N. Fuin1, D. Salvado1, B. F. Hutton1,2
1
Institute of Nuclear Medicine, UCL, UK; 2Centre for Medical Radiation
Physics at the University of Wollongong, Australia
M17-16 Asymptotic Behaviour of the Singular Values for the
Truncated Hilbert Transform
R. Al-Aifari, M. Defrise, Vrije Universiteit Brussel, Belgium; A. Katsevich,
University of Central Florida, USA
M17-17 Low Dose Differential Phase Contrast Reconstruction
Algorithm via BM3D Filter
X. Jiang1,2, L. Zhang1,2, H. Yin3, Z. Wang3, M. Stampanoni4,5
1
Tsinghua University, China; 2Key Laboratory of Particle AND Radiation
Imaging (Tsinghua University), China; 3Beijing Tongren Hospital, China;
4
University and ETH Zurich, Switzerland; 5Paul Scherrer Institute, Switzerland
M17-18 Statistical Sinogram Smoothing for SPECT
H. Zhang1,2, J. Wen2, H. Han1, J. Wang3, Z. Liang1
1
Stony Brook University, USA; 2Beijing Institute of Technology, China;
3
University of Texas Southwestern Medical Center, USA
M17-19 A Multigrid Approach to ML Reconstruction in PET: A Fast
Alternative to EM-Based Techniques.
F. O’Sullivan1,2, L. O’Suilleabhain1,3
1
University College Cork, Ireland; 2University of Washington, USA;
3
University of California, USA
M17-20 Effect of Noise in CT Image Reconstruccion Using QRDecomposition Algorithm
A. Iborra, M.-J. Rodriguez-Alvarez, A. Soriano, F. Sanchez, P. Bellido, P.
Conde, E. Crespo, A. Gonzalez, L. Hernandez, F. Martos, L. Moliner, J. P.
Rigla, M. Seimetz, L. F. Vidal, J. M. Benlloch
Institute for Instrumentation in Molecular Imaging (I3M), Universitat
Politecnica de Valencia, Spain
M17-21 Iterative TV Reconstruction Vs. Weighted FBP
Reconstruction
G. L. Zeng, University of Utah, USA; A. Zamyatin, Toshiba Medical Research
Institute USA, Inc., USA
M17-22 3D Anisotropic Total Variation Method for Limited-Angle
CT Reconstruction
Y. Yang, L. Li, Z. Chen
M17-23 Limited Angle Reconstruction with Two Dictionaries
M. Cao1,2, Y. Xing1,2
1
M17-24 Joint Reconstruction of Low-Rank and Sparse Components
from Undersampled (k, t)-Space Small Bowel Data
N. Dikaios, B. Tremoulheac, A. Menys, V. Hamy, S. Arridge, D. Atkinson
University College London, United Kingdom
M17-25 CT Reconstruction from Few-Views by Edge Guided TV
Minimization
J. Rong, Q. Liao, W. Liu, P. Gao, H. Lu,
The Fourth Military Medical University, China
M17-26 Low-Dose GraphicProcessing-Unit Based Limited-Angle
CT Reconstruction Algorithm Development for a Home-Made Dual
Modality Micro-FT/CT System
S.-C. Jin, J.-C. Chen, Dept. of Biomedical Imaging and Radiological Science,
National Yang-Ming University, Taiwan
M17-27 Spatially Variant Resolution Modelling for Iterative ListMode PET Reconstruction
M. G. Bickell, J. Nuyts, L. Zhou, KU Leuven, Belgium
M17-28 Comparison of Depth of Interaction Encoding and Resolution
Modelling Image Reconstruction in High Resolution PET Imaging
J. M. Anton-Rodriguez1,2, F. A. Kotasidis1,3, G. I. Angelis4, P. J. Noonan1, C.
Kobylecki1, P. J. Julyan1,2, J. C. Matthews1
1
University of Manchester, United Kingdom; 2The Christie Hospital, United
Kingdom; 3Geneva University, Switzerland; 4University of Sydney, Australia
M17-29 Isotope Specific Resolution Modelling Image
Reconstruction for High Resolution PET Imaging
F. A. Kotasidis1,2, J. M. Anton-Rodriguez2, G. I. Angelis3, J. C. Matthews2, A.
J. Reader4, H. Zaidi1,5
1
Geneva University Hospital, Switzerland; 2University of Manchester, United
Kingdom; 3University of Sydney, Australia; 4McGill University, Canada;
5
Geneva University, Switzerland
M17-30 High Density Forward Projector for Spatial Resolution
Improvement
A. A. Zamyatin, Y. Pan, Z. Yang, Toshiba Medical Research Institute USA, Inc,
United States; S. Nakanishi, Toshiba Medical Systems Corporation, Japan
M17-31 Polygonal Pixel Grid Based PET Image Reconstruction
Algorithm: Development, Application and Performance
Comparison
Y. Yu1, Y. Xia1, W. Wang2, Y. Liu1, K. Ying1, S. Wang1, T. Ma1
1
Tsinghua University, China; 2Navy General Hospital, China
M17-32 Image Reconstructions from Super-Sampled Data Sets in
PET Imaging
Y. Li, S. Matej, S. D. Metzler, University of Pennsylvania, USA
M17-33 High Performance SPECT-CT Projection Operators
M. Cachovan1, A. Yahil2, A. H. Vija3, J. Hornegger1,4
1
Pattern Recognition Lab, FAU, Germany; 2Image Recon LLC, USA; 3Siemens
Healthcare, MI, USA; 4Erlangen Graduate School in Advanced Optical
Technologies, Germany
M17-34 Separable Footprint Method for Fully 3D PET
Reconstruction with SIMD and SIMT
K. Y. Kim1,2, S. Y. Chun3, J. S. Lee1,2
1
Seoul National University College of Medicine, South Korea; 2Seoul
National University, South Korea; 3Ulsan National Institute of Science and
Technology, South Korea
M17-35 LOR-Based Reconstruction for Super-Resolved 3D PET
Image
I. J. Ahn, J. H. Kim, W. H. Nam, Y. Chang, J. B. Ra, KAIST, Republic of Korea
Friday
M17-36 Accurate Image Reconstruction Based on Gaussian Model
Fitted System Matrix in Multi-Pinhole Small Animal SPECT Imaging
T. Dai1,2, T. Ma1,2, Q. Wei1,2, H. Liu1,2, X. Li3, S. Wang1,2, Y. Liu1,2
1
Tsinghua University, China; 2Ministry of Education, China; 3National
Institute of Metrology, China
M17-37 Improved Area-Simulating-Volume Method for 3D X-Ray
CT Re-Projection and Back-Projection Operations
Y. Liu1, Y. Fan1, H. Lu2, Z. Liang1
1
M17-38 Incorporation of Time-of-Flight Information in PET ListMode Reconstruction Using a Projector with Accurate Detector PSF
Modeling
A. Autret1, J. Bert1, O. Strauss2, D. Visvikis1
1
LaTIM - INSERM UMR1101 - CHRU Brest, France; 2LIRMM - CNRS UMR5506 Universite Montpellier 2, France
M17-39 PSF-Based PET Reconstruction of Small Homogeneous
Spheres Is Quantitatively Misleading: An Experimental Evaluation
Using Sub-cm Spheres
O. L. Munk1, L. P. Tolbod1, T. V. Bogsrud1,2, A. Skretting2,3
1
Aarhus University Hospital, Denmark; 2Oslo University Hospital, Norway;
3
University of Oslo, Norway
M17-40 On the Assessment of Spatial Resolution of PET Systems
with Iterative Image Reconstruction
K. Gong, S. R. Cherry, J. Qi, University of California, Davis, United States
Imaging I / Signal and Image Processing
Session Chairs: Arkadiusz Sitek, Massachusetts General Hospital and
Harvard Medical School, United States
R.Glenn Wells, University of Ottawa Heart Institute,
Canada
M18-1 Anatomical-Based Partial Volume Correction for Cardiac
SPECT/CT Systems
H. Liu1,2, C. Chan1, Y. Grobshtein3, T. Ma2, Y. Liu2, S. Wang2, M. R. Stacy1, D.
Dione1, A. J. Sinusas1, C. Liu1
1
Yale University, USA; 2Key Laboratory of Particle & Radiation Imaging
(Tsinghua University), Ministry of Education, China; 3GE Healthcare, Israel
M18-2 A Study of Resolution Recovery Performed in Projection-Space
and Image-Space for a High Resolution Small Animal PET Scanner
H. Baghaei, H. Li, Y. Zhang, R. A. Ramirez, W.-H. Wong
University of Texas M.D. Anderson Cancer Center, USA
M18-3 Motion Compensated 4D PET-CT-MR Image Generation for
Respiratory Synchronized Multi-Modal Image Display
W. H. Nam, J. H. Kim, I. J. Ahn, Y. Chang, J. B. Ra, KAIST, South Korea
M18-4 Robustness of Recursive Bayesian Estimation of Respiratory
Motion with Inter-Cycle Variation
A. A. Abd. Rahni, Universiti Kebangsaan Malaysia, Malaysia; E. Lewis, K.
Wells, University of Surrey, United Kingdom
M18-5 Respiratory Motion Correction of PET Imaging Using a
Combination of PET and MR Data
D. Balfour, I. Polycarpou, P. K. Marsden, A. P. King
King’s College London, UK
M18-6 Non-Rigid Respiratory Motion Correction for 4D Gated PET
Sinogram Data
T. Feng, B. M. Tsui, Johns Hopkins University, United States
M18-7 Count-Based Listmode Respiratory Motion Detection for
Quantitative PET
K. S. Lee, D. H. Hristov, Stanford University, U.S.A
M18-8 Toward a Framework for High Resolution Parametric
Respiratory Motion Modelling
R. L. Smith, K. Wells, J. Jones, University of Surrey, UK; P. Dasari, C. Lindsay,
M. King, University of Massachusetts Medical School, USA
M18-9 Modeling Longitudinal Changes in Aβ PET Imaging with
Two-Point Correlation Functions
S. Shokouhi, W. R. Riddle, B. Rogers, Vanderbilt University, USA
M18-10 Improvement in Motion Correction Technique for
microPET Brain Imaging
L. Zhou1, M. Bickell1, A. Kyme2, R. Fulton2, J. Nuyts1
1
Medical Imaging Research Center, KU Leuven, Belgium; 2Brain and Mind
Research Institute, University of Sydney, Australia
M18-11 Reducing Event Losses in Sinogram-Based PET Motion
Correction by Extending the Axial Field of View
V. W. Zhou, CQUniversity, Australia; A. Kyme, S. R. Meikle, R. Fulton,
M18-12 Quantitative Comparison of Motion Correction Methods in
HRRT Brain Imaging
D. E. Lee, S. Thada, S. Conant, J. Guo, K. D. Hall, W. C. Barker, D. A.
Hammoud, National Institutes of Health, USA
M18-13 Motion-Corrected Planar Projection Imaging for Awake
and Freely Moving Small Animals
G. I. Angelis1, F. Boisson2, W. J. Ryder1, A. Z. Kyme1, R. R. Fulton1, S. R.
Meikle1
1
The University of Sydney, Australia; 2Australian Nuclear Science and
Technology Organisation, Australia
M18-14 Using ITK to Obtain Motion Transform in Anatomically
Guided PET Motion Correction for Simultaneous PET/MR
J.-C. Cheng, R. Laforest, Washington University School of Medicine, USA
M18-15 Robust Estimation of Motion in PET Image Sequences
Through Minimisation of Voxel-Wise Variance
R. K. Barnett1,2, R. Fulton1,2, S. Meikle1, C. Tsoumpas3
1
Sydney University, Australia; 2Westmead Hospital, Australia; 3King’s College
London, UK
M18-16 Experimental Measurement of Human Head Motion by
Binocular Stereo Vision Method
J. Xia, L. Li, Z. Guo
M18-17 Using PCA to Detect Head Motion from PET List Mode
Data
K. Thielemans1,2, P. Schleyer2, J. Dunn2, P. K. Marsden2, R. M. Manjeshwar3
1
University College London, UK; 2King’s College London, UK; 3GE Research, USA
M18-18 Left Ventricular Heart Phantom for Wall Motion Analysis
K. Mueller1,2, A. K. Maier1,2, P. Fischer1,2, B. Bier1, G. Lauritsch3, C.
Schwemmer1,2, R. Fahrig4, J. Hornegger1,2
1
Universitaet Erlangen-Nuernberg, Germany; 2Erlangen Graduate School in
Advanced Optical Technologies (SAOT), Germany; 3Siemens AG, Germany;
4
M18-19 Motion Effect Evaluation in Diagnosis and Treatment
Using Artificial Pulmonary Nodule
S.-K. Woo1, T. Nam1, N. Park2, S. Park1, S. Han1, K. M. Kim1, J. H. Kang1, K.
Eom2, Y. H. Ji1, S. M. Lim1
1
Korea Institute of Radiological and Medical Science, Korea, Republic of;
2
Konkuk University, Korea, Republic of
M18-20 Random Correction Using Large Coincidence Window for
the Clear-PEM System
L. Cao1, R. Bugalho2, C. S. Ferreira2,3, C. Ortigao2, J. Varela2, J. Peter1
1
German Cancer Research Center, Germany; 2LIP - Laboratory of
Instrumentation and Experimental Particles Physics, Portugal; 3University
of Lisbon, Portugal
Friday
M18-21 Evaluation of the Novel 3D SPECT Modelling Algorithm in
the STIR Reconstruction Framework: Simple Vs. Full Attenuation
Correction
B. Marti1, K. Erlandsson2, C. Falcon1, C. Tsoumpas3, L. Livieratos3, D. Ros1,
K. Thielemans2,3
1
University of Barcelona, Spain; 2University College London, UK; 3Kings
College London, UK
M18-22 Attenuation Correction for a Generalized Scatter
Reconstruction Algorithm in PET
H. Sun1,2, S. Pistorius1,2
1
University of Manitoba, Canada; 2CancerCare Manitoba, Canada
M18-23 Quantitative Bias in PET/MR from Attenuation Correction
and Reconstruction: a Comparison with PET and PET/CT with an
Anatomical Brain Phantom
J. Teuho1, J. Johansson1, J. Linden1,2, V. Saunavaara1, T. Tolvanen1, M. Teras1
1
Turku University Central Hospital, Finland; 2University of Turku, Finland
M18-24 Effects of MR-Invisible Objects and Subject Attenuation
Correction on PET Quantification in Small Animal PET/MR Imaging
I. Bezrukov1,2, H. Wehrl1, C.-C. Liu1, M. Hossain1, F. Mantlik1,2, B. J. Pichler1
1
University of Tuebingen, Germany; 2Max-Planck-Institute for Intelligent
Systems, Germany
M18-25 Performance Evaluation of Interpolated Average CT for
PET Attenuation Correction in Different Lesion Characteristics
C. Ho1, T. Sun1, T. H. Wu2, G. Mok1
1
University of Macau, China; 2National Yang Ming University, Taiwan
M18-26 Calculated Attenuation Correction for Awake Small Animal
Brain PET Studies
G. I. Angelis1, M. Bickell2, A. Z. Kyme1, W. J. Ryder1, L. Zhou2, J. Nuyts2, S. R.
Meikle1, R. R. Fulton1
1
The University of Sydney, Australia; 2KU Leuven, Belgium
M18-27 Scatter and Attenuation Corrections for a PEM Detector
Using List-Mode OSEM
C. S. Ferreira1,2, L. Cao3, R. Bugalho2, N. Matela1, C. Ortigao2, J. Varela2,4, P. Almeida1
1
FCUL/IBEB, Portugal; 2LIP, Portugal; 3German Cancer Research Center,
Germany; 4CERN, Switzerland
M18-28 GPU-Accelerated Monte Carlo Based Scatter Correction in
Brain PET/MR
M. E. Gaens1, J. Bert2, U. Pietrzyk1,3, N. J. Shah1, D. Visvikis2
1
Forschungszentrum Juelich, Germany; 2LaTIM, France; 3University of
Wuppertal, Germany
M18-29 A Comparison of Scatter Correction Methods for
Quantitative Lu-177 SPECT
R. de Nijs1, V. Lagerburg2,3, T. L. Klausen1, S. Holm1
1
Rigshospitalet, Copenhagen University Hospital, Denmark; 2Spaarne
Hospital, the Netherlands; 3Catharina Hospital, the Netherlands
M18-30 Energy Based Scatter Correction Method for a Solid-State
SPECT Scanner
W. Takeuchi, Y. Morimoto, A. Suzuki, Y. Ueno, K. Kobashi, Hitachi Ltd.,
Japan; N. Kubo, T. Shiga, N. Tamaki, Hokkaido University, Japan
M18-31 A Spectral Forward Model for Single Scatter in PET
I. G. Kazantsev, Institute of Computational Mathematics and
Mathematical Geophysics, Russia
M18-32 PET/MR Imaging of the Head/neck: Automatic Correction
of Dental Implant Artifacts Exceeding Anatomical Surfaces
C. N. Ladefoged1, F. L. Andersen1, T. Beyer2, A. E. Hansen1, S. H. Keller1, I.
Law1, L. Hoejgaard1, A. Kjaer1, F. Lauze3
1
Rigshospitalet, Denmark; 2University of Vienna, Austria; 3University of
Copenhagen, Denmark
M18-33 A Post-Processing Method for Improving Contrast and
Reducing Cupping Artifacts in Low-Energy CBCT Images
C. Thanasupsombat, P. Pengvanich, Chulalongkorn University, Thailand;
S. Aootaphao, S. S. Thongvigitmanee, National Electronics and Computer
Technology Center, Thailand
M18-34 Impact of detector moving on gamma camera dead-time
in high dose radioimmunotherapy (RIT) using 131I whole-body
planar imaging
Y. S. Lee1,2, K. M. Kim1, J. G. Kim1, J. S. Kim1, W. Lee1, H.-J. Kim2, B. I. Kim1, S.
M. Lim1
1
Korea Institute of Radiological and Medical Sciences, rep. of korea; 2Yonsei
University, rep. of korea
M18-35 Development of a Method Calculating Detection Efficiency
Maps for Quantitative Image Reconstruction of a Compton Camera
Y. Nagao1, M. Yamaguchi1, N. Kawachi1, S. Fujimaki1, T. Kamiya1, S.
Takeda2, S. Watanabe2, T. Takahashi2, K. Torikai3, K. Arakawa1,3, T. Nakano3
1
Japan Atomic Energy Agency, Japan; 2Japan Aerospace Exploration
Agency, Japan; 3Gunma University, Japan
M18-36 Techniques for Improving the Energy and Timing
Performance of a Light-Sharing PET Detector at High Count-Rates
S. Krishnamoorthy, J. Panetta, B. Legeyt, R. I. Wiener, S. Surti, J. S. Karp
M18-37 Determination of Dense Motion Fields for the Whole Torso
Surface Using Two Microsoft Kinects
M. Hess, F. Gigengack, F. Buether, M. Dawood, K. P. Schaefers
European Institute for Molecular Imaging, Germany
M18-38 Study of an Inertial Measurement Unit for Real Time
Motion Tracking in Medical Imaging
K. Ziemons, M. Titze, S. Beging, FH Aachen University of Applied Sciences,
Germany; R. Fulton, The University of Sydney, Australia
M18-39 Multiple Target Marker Tracking for Real-Time, Accurate,
and Robust Rigid Body Motion Tracking of the Head for Brain PET
P. J. Noonan1, J. M. Anton-Rodriguez1, T. F. Cootes2, W. A. Hallett1, R. Hinz1
1
University of Manchester, UK; 2Imanova Centre for Imaging Sciences, UK
M18-40 Fast and Practical Head Tracking in Brain Imaging with
Time-of-Flight Camera
J. Wilm1,2, O. V. Olesen1,2,3, R. R. Jensen1, L. Hojgaard2, R. Larsen1
1
Technical University of Denmark, Denmark; 2Rigshospitalet, Denmark;
3
Massachusetts General Hospital, USA
M18-41 Analysis of 4DCT Patient Breathing Pattern Using
Recurrence Plots
S. H. Lee1,2, H. Kim1,2, S. C. Han1,2, M.-S. Kim1,2,3, H.-J. Yoo3, C.-Y. Yi4, S. Park1,
H. Jung1,2, Y. H. Ji1,2,3, K. B. Kim1,2,3
1
University of Science & Technology, Korea; 2Korea Institute of Radiological
and Medical Sciences, Korea; 3Korea Cancer Center Hospital, Korea; 4Korea
Research Institute of Standards and Science, Korea
M18-42 Extracting a Respiratory Signal from Raw Dynamic PET
Data That Contain Tracer Kinetics
P. J. Schleyer1, K. Thielemans1,2, P. K. Marsden1
1
King’s College London, UK; 2University College London, UK
M18-43 Estimation of Decoding Error for Light Sharing Based PET
Detector Module Using a Gaussian Mixture Model
Q. Wei1,2, T. Ma1,2, S. Wang1,2, T. Dai1,2, Y. Jin1,2, Y. Liu1,2
1
M18-44 Recovery of Multi-Interaction Photon Events to Improve
the Performance of PET Scanners
E. Lage1, V. Parot1, S. R. Dave1, J. M. Udias2, S. C. Moore3, A. Sitek4, M.-A.
Park3, J. J. Vaquero5, J. L. Herraiz1
1
de Madrid, Spain; 3Brigham and Women’s Hospital and Harvard Medical
School, USA; 4Massachusetts General Hospital and Harvard Medical School,
Spain; 5Universidad Carlos III de Madrid, Spain
M18-45 A Neighborhood Standard Deviation Based Algorithm for
Generating PET Crystal Position Maps
Q. Wei1, X. Li2, T. Ma1, S. Wang1, T. Dai1, P. Fan1, Y. Yu1, Y. Jin1, Y. Liu1
1
Tsinghua University, China; 2National Institute of Metrology, China
Friday
M18-46 Accelerate the Acquisition of Imaging Probes Using
Spatiotemporal Processing
M. Jin, J. Yu, W. Chen, University of Texas at Arlington, United States; G.
Hao, X. Sun, University of Texas Southwestern Medical Center, United
States
M18-47 Optimal Contrast as a Function of Noise for Butterworth
Filtering of 111In-Pentetreotide SPECT When Using Model-Based
Compensation
A. Larsson, D. Holmberg, T. Sundstrom, J. Axelsson, K. Riklund
Umea University, Sweden
M18-48 Investigation on Parameter Selection of Non-Local Means
Filters Using CT Side Information for Multiple I-131 SPECT Scans
S. Y. Chun, Ulsan National Institute of Science and Technology (UNIST),
Republic of Korea; Y. Dewaraja, University of Michigan, USA
M18-49 Post-filtering of PET image based on noise characteristic
and spatial sensitivity distribution
J. H. Kim, I. J. Ahn, W. H. Nam, Y. Chang, J. B. Ra
KAIST, Republic of Korea
M18-50 Sharpening and Denoising of Dynamic PET Images with
Coupled Vector-Based Anisotropic Diffusion and Shock Filtering
P. Gonzalez1,2, V. Jaouen1, S. Stute3, M. Mora2, D. Guilloteau1, I. Buvat4, C.
Tauber1
1
UMRS INSERM U930 - Universite de Tours, France; 2DCI Universidad
Catolica del Maule, Chile; 3CEA/I2BM/SHFJ/LIME, France; 4IMNC, IN2P3,
UMR 8165 CNRS-Universites Paris 7 Paris 11, France
M18-51 Guided Noise Reduction with Streak Removal for High
Speed Perfusion C-Arm CT
M. T. Manhart1, A. Aichert1, M. Kowarschik2, Y. Deuerling-Zheng2, T.
Struffert1, A. Doerfler1, A. K. Maier1, J. Hornegger1
1
University of Erlangen-Nuremberg, Germany; 2Siemens AG, Germany
M18-52 A Novel Image Restoration Method Assisted by Reference
Image in Dual-Energy CT
Y. Li1,2, L. Zhang1,2, J. Hao1,2, K. Kang1,2
1
M18-53 Registration Between Respiratory-Gated PET/CT and HighResolution CT with XCAT Simulations: Evaluation and Optimization
for Subsequent PVC
A. Turco, J. Nuyts, O. Gheysens, J.-U. Voigt, P. Claus, K. Vunckx
KU Leuven, Belgium
M18-54 PET/CT Image Denoising and Segmentation Based on a
Multi Observation and Multi Scale Markov Tree Model
H. Hanzouli1, J. L. Lahorgue1, E. Monfrini2, G. Delso3, W. Pieczynski2, D.
Visvikis1, M. Hatt1
1
INSERM UMR 1101, LaTIM, France; 2CNRS UMR 5157, France; 3University
Hospital, Switzerland
M18-55 A 4D CT Volumetric Image Automated Segmentation and
Registration Method for Lung Tumor
M. R. Alnowami1, M. E. Al-Sulimane2, S. M. Al-Batati1, K. Wells3
1
King Abdulaziz University, Saudi Arabia; 2Taif University, Saudi Arabia;
3
University of Surrey, UK
M18-56 Extraction of Cervical Vertebrae from Panoramic X-Ray
Images
J. Yamamoto, M. Yanase, K. Ogawa, Hosei University, Japan; A. Katsumata,
Asahi University, Japan
M18-57 Anatomical Segmentation for Temporal Subtraction
Images in Successive Whole-body Bone Scans
J. Shiraishi, S. Shiraishi, Kumamoto University, Japan; K. Kawakami, T.
Hosoya, FUJIFILM RI Pharma Co., Ltd., Japan
M18-58 Contourlet-Based Deformable Model for Tumor Volume
Delineation in PET
M. Abdoli1, R. A. J. O. Dierckx1, H. Zaidi1,2
1
University Medical Center Groningen, Netherlands; 2Geneva University
Hospital, Switzerland
M18-59 Improved PET Lesion-Detection Performance Using 2mm
Pixels
A. M. Morey, F. Noo, D. J. Kadrmas
University of Utah, United States
M18-60 A Naive-Bayes Numerical Surrogate for a Human Observer
in Perfusion Detection and Localization in SPECT-MPI
F. M. Parages1, J. M. O’Connor2, P. H. Pretorius2, J. G. Brankov1
1
Illinois Institute of Technology, United States; 2University of Massachusets
Medical School, United States
M18-61 A Novel Scheme for Computer Aided Detection (CADe) of
Colonic Polyps Based on Colon Structure Decomposition
H. Wang1, Z. Liang2, H. Peng3, B. Song2, F. Han2, H. Han2, Y. Liu2
1
School of Software,Beihang University, China; 2Dept. of Radiology, Stony
Brook University, New York; 3Dept. of Computer Science, Stony Brook
University, New York
M18-62 Detection of Temporal Events in Colonoscopy Videos
Using Motion Vector Templates
J. Oh, R. Nawarathna, University of North Texas, USA; W. Tavanapong, J.
Wong, Iowa State University, USA; P. C. de Groen, Mayo Clinic College of
Medicine, USA
M18-63 Whole-Body MR-Based Attenuation Correction Map with
Fat Segmentation in Abdominal Scan
H. J. An1, H. J. Im1, I. C. Song1, E. S. E. Kim2, D. S. Lee1, J. S. Lee1
1
Seoul National University College of Medicine, Korea; 2UC Irvine, USA
M18-64 The Correct Configuration of Retinal Vessels in Retinal
Images
T. Ahmad, University of Lincoln, United Kingdom
M18-65 PET/CT Image Textures for the Recognition of Tumors and
Organs at Risk for Radiotherapy Treatment Planning
G. Liu1, W. Yang1, S. Zhu2, Q. Huang3, M. Liu1, H. Wu1, Z. Hu1, Z. Huang2,
Y. Yuan2, K. Liu2, W. Huang1, B. Liu1, J. Liu1, X. Zhao1, M. Nie1, B. Hu2, J.
Zhang2, Y. Mo2, B. Zeng2, X. Peng2, J. Zhou2
1
Hunan University, China; 2Cancer Hospital of Hunan province, Xiangya
School of Medicine of Central South University, China; 3Shanghai Jiao Tong
University, China
M18-66 Analysing Morphological Patterns of Blood Vessels for the
Detection of Alzheimers Disease
M. Sahrim, M. Nixon, R. Carare
University of Southampton, UK
M18-67 An Optimal Framework for Surface-Based [11C] PIB PET
Mapping Using MRI-Based Cortical Surface Analysis with Partial
Volume Correction
C. M. Kim, H. J. Yun, J.-M. Lee
Hanyang University, Republic of Korea
M18-68 Spectral Unmixing for in Vivo Fluorescence Imaging Based
on Accurate Target-to-Background Estimation
C. Hu, Y. Zhao, B. Qin
Shanghai Jiao Tong University, China
M18-69 Classification Initialized Hierarchical ALS-Based NMF with
Partial Sparseness Constraints for Fluorescence Spectral Unmixing
S. Huang, C. Hu, B. Qin
Shanghai Jiao Tong University, China
M18-70 Development of Experimental and Image Database
System for Molecular Imaging Research
H. Watabe, Tohoku University, Japan; G. Horitsugi, T. Watabe, H. Kato, E.
Shimosegawa, J. Hatazawa, Osaka University Graduate School of Medcine,
Japan
M18-71 DQS Advisor: a Visual Interface to Balance Dose, Quality
and Reconstruction Speed in Iterative CT
Z. Zheng, E. Papenhausen, K. Mueller
Stony Brook University, US
M21 Imaging in Therapy / New Detector
Materials and Technologies
16:30-18:30 Friday
Friday, Nov. 1 Hall B2
Session Chairs: Yiping Shao, The University of Texas M.D. Anderson
Cancer Center, United States
Stan Majewski, West Virginia University, United States
M21-1 Preliminary Results of an in-Beam PET Prototype for Carbon
Therapy
H.-I. Kim1,2, S. J. An1,2, C. Y. Lee1,2, W. J. Jo1,2, E. Min3, K. Lee3, Y. Kim4, J.
Jeong4, Y. H. Chung1,2
1
College of Health Science, Yonsei University, Korea; 2Institute of Health
Science, Yonsei University, Korea; 3Korea University, Korea; 4Nucare Medical
Systems, Inc, Korea
M21-2 Prompt Gamma Imaging of a Proton Pencil Beam at Clinical
Current Intensities: First Test on a Prototype and Development of a
Full-Size Camera
I. Perali1,2, A. Celani3, E. Baio1, C. Fiorini1,2, T. Frizzi3, E. Clementel4, S.
Henrotin5, G. Janssens5, D. Prieels5, F. Roellinghoff5, J. Smeets5, F.
Stichelbaut5
1
3
XGLab, Italy; 4Universit catholique de Louvain, Belgium; 5Ion Beam
Applicaitons, Belgium
M21-3 The Application of the Axial PET Concept to Novel Imaging
Scenarios
P. Solevi1, I. Torres-Espallardo1, J. Gillam1, J. Cabello2, J. Oliver1, M. Rafecas1
1
IFIC (CSIC/Universidad de Valencia), Spain; 2Klinikum rechts der Isar der
Technischen Universitat Munchen, Germany
M21-4 Proton Beam Range Verification Using off-Site PET by
Imaging Novel Proton-Activated Fiducials
J. Cho, G. S. Ibbott, R. Amos, M. Kerr, O. R. Mawlawi
MD Anderson Cancer Center, USA
M21-5 A new beam range monitoring method by measuring low
energy photons
M. Yamaguchi1, K. Torikai2, N. Kawachi1, H. Shimada2, T. Satoh1, Y. Nagao1,
S. Fujimaki1, M. Kokubun3, S. Watanabe3, T. Takahashi3, K. Arakawa1,2, T.
Kamiya1, T. Nakano2
1
Japan Atomic Energy Agency, Japan; 2Gunma University, Japan; 3Japan
Aerospace Exploration Agency, Japan
M21-6 In-Situ PET Imaging with Digital SiPMs for Proton Range
Verification: Initial Performance Study
P. Cambraia Lopes1,2,3, I. Rinaldi4, J. Bauer4, S. Brons2, P. Dendooven5, J.
Huizenga1, P. Crespo3,6, K. Parodi4,7, D. R. Schaart1
1
Delft University of Technology, The Netherlands; 2Heidelberg Ion-Beam
Therapy Center, University Clinic of Heidelberg, Germany; 3Laboratório de
Instrumentação e Física Experimental de Partículas, Portugal; 4Heidelberg
University Clinic, Germany; 5University of Groningen, The Netherlands;
6
Universidade de Coimbra, Portugal; 7Ludwig Maximilian University, Germany
M21-7 4D and Multi-Phase Breath-Hold CT Imaging with
Synchronized Intravenous Contrast Injection for Liver Tumor
Delineation
S. Beddar, Y. Suh, Z. Wen, P. Das, M. E. Delclos, S. Krishnan, B. Minsky, C.
H. Crane, University of Texas, MD Anderson Cancer Center, USA
M21-8 To Use or Not to Use SiPM Based in-Beam PET for Proton
Therapy: Ramification of Neutron Radiations to the Imaging
Performance and Abatement Methods
X. Sun, X. R. Zhu, K. Lou, Y. Shao, UT MD Anderson Cancer Center, USA
M21-9 CBCT Image Reconstruction of a Moving Target with an onBoard Imaging System for Radiation Therapy
K. Usui1,2, S. Kabuki3, C. Kurokawa1, S. Sugimoto1, K. Sasai1, E. Kunieda3,
K. Ogawa2
1
Juntendo University School of Medicine, Japan; 2Hosei University, Japan;
3
Tokai University School of Medicine, Japan
M21-10 Reconstruction of Implanted Marker Trajectory from
Cone-Beam CT Projection Images Using an Inter-Dimensional
Correlation Model
B. Cho, Asan Medical Center, University of Ulsan College of Medicine, Korea;
P. Poulsen, Aarhus University Hospital, Denmark; P. Keall, Sydney Medical
School, University of Sydney, Australia
M21-11 Compton Imaging in a High Energetic Photon Field
T. Kormoll1, D. Bemmerer2, F. Fiedler2, C. Golnik1, F. Hueso Gonzalez1, K.
Heidel2, M. Kempe2, H. Rohling1, K. Schmidt2, S. Schoene2, L. Wagner2, G.
Pausch1
1
University of Technology Dresden, Germany; 2Helmholtz-Zentrum
Dresden-Rossendorf, Germany
M21-12 Current Status of 4D Offline PET-Based Treatment
Verification at the Heidelberg Ion-Beam Therapy Center
C. Kurz1, J. Bauer1, D. Unholtz1, S. Combs1, J. Debus1, D. Richter2, R.
Kaderka2, C. Bert2,3, K. Stuetzer4, C. Gianoli1,5, G. Baroni5, K. Parodi6
1
Heidelberg University Hospital, Germany; 2GSI Helmholtzzentrum fuer
Schwerionenforschung, Germany; 3University Clinic Erlangen, Germany;
4
Technische Universitaet Dresden, Germany; 5Politecnico di Milano, Italy;
6
Ludwig-Maximilian-University, Germany
M21-13 Accuracy Improvement of Time Delay Correction Method
for PET-Based Tumor Tracking
T. Shinaji1,2, H. Tashima2, E. Yoshida2, T. Yamaya2,1, H. Haneishi1
1
Chiba University, Japan; 2National Institute of Radiological Sciences, Japan
M21-14 2D Image Analysis Using Light Output of Scintillation
Screen for Uniform Scanning Mode
S. Cho, J.-I. Shin, S. Park, C. Jeong, J. H. Jeong, D. Shin, Y. K. Lim, J. Y. Kim,
S. B. Lee, National Cancer Center, South Korea
M21-15 Improved accuracy of image guided radiation therapy
(IMRT) based on bone suppression technique
R. Tanaka, S. Sanada, Kanazawa University, Japan; M. Oda, M. Suzuki, K.
Sakuta, H. Kawashima, Kanazawa University Hospital, Japan
M21-16 Washout Studies of in-Beam Rat Imaging by the 2nd
Generation OpenPET Prototype
Y. Hirano, E. Yoshida, H. Wakisaka, Y. Nakajima, F. Nishikido, H. Ito, T.
Yamaya, National Institute of Radiological Sciences, Japan
M21-17 Portal Image Registration Using the Phase Correlation
Method
G. V. Gerganov1, A. Papucharov2, I. Kawrakow3, K. K. Mitev1
1
Sofia University, Bulgaria; 2Specialized Hospital for Active Treatment in
Oncology, Bulgaria; 3ViewRay Inc., USA
M21-18 Preliminary Study of Intensity Weighted Region-ofInteresting Image Reconstruction Using Iterative Algorithm
K. Son1,2, J. Lee1, Y. Lee1, J. S. Kim2, S. Cho1
1
Korea Advanced Institute of Science and Technology, Korea; 2Samsung
Medical Center, Sungkyunkwan University School of Medicine, Korea
M21-19 Conceptual design of molecular-image-guided
radiotherapy using a parallel plane PET
M. Ishikawa1, S. Yamaguchi2, S. Tanabe3, N. Ukon1, K. Sutherland1, N.
Miyamoto1, R. Suzuki4, N. Katoh1, K. Yasuda1, H. Shirato1
1
Graduate School of Medicine, Hokkaido University, Japan; 2Iwate
Medical University, Japan; 3Keiyuukai Sapporo Hospital, Japan; 4Hokkaido
University Hospital, Japan
M21-20 Exploration of Optimization-Based Reconstruction
Potential in Cone-Beam CT for Image-Guided Radiation Therapy
X. Han, E. Pearson, E. Y. Sidky, C. A. Pelizzari, X. Pan, University of Chicago,
USA
M21-21 Feasibility of Using O-18 Enriched Phantoms for PET
Verification of Proton Therapy Treatment Planning
K. Grogg1, X. Zhu1, J. Chang2, B. Winey1, J. A. Correia1, G. El Fakhri1
1
Mass General Hospital, USA; 2Florida Radiation Oncology Group, USA
Friday
M21-22 Optimizing Secondary Radiation Imaging Systems for
Range Verification in Hadrontherapy
I. Torres-Espallardo1, J. E. Gillam1, P. Solevi1, P. G. Ortega2, H. Rohling3, P.
Botas1, J. F. Oliver1, G. Llosa1, C. Solaz1, M. Trovato1, C. Lacasta1, M. Rafecas1,4
1
IFIC (Universidad de Valencia / CSIC), Spain; 2CERN, Switzerland; 3OncoRay,
Technische Universitaet Dresden, Germany; 4Universidad de Valencia, Spain
M21-23 Feasibility Study of Proton Radiography in Proton Beam
Therapy
B. Min1, J. Kwak2, J. Lee3, S. Cho3, D. Shin4, S. B. Lee4, S. Y. Park5, H. Nam1
1
Kangbuk Samsung Hospital, Sungkyunkwan University School of
Medicine, KOREA; 2Asan Medical Center, KOREA; 3KAIST, Korea; 4National
Cancer Center, KOREA; 5McLaren Cancer Institute, USA
M21-24 Noise Evaluation of Prompt-Gamma Technique for ProtonTherapy Range Verification Using a Compton Camera
P. G. Ortega1,2, I. Torres-Espallardo1, T. T. Boehlen2, F. Cerutti2, M. P. W.
Chin2, A. Ferrari2, J. E. Gillam1, C. Lacasta1, G. Llosa1, J. Oliver1, M. Rafecas1,
P. R. Sala3, P. Solevi1
1
IFIC (CSIC/UV), Spain; 2CERN, Switzerland; 3INFN, Italy
M21-25 Monte Carlo Simulation of Region-of-Interest
Reconstruction for Real-Time Tumor Tracking by OpenPET
H. Tashima1, E. Yoshida1, T. Shinaji2, H. Haneishi2, H. Ito1, T. Yamaya1
1
National Institute of Radiological Siences, Japan; 2Chiba University, Japan
M21-26 Monte Carlo Simulation Study of In-beam Intra-treatment
PET Imaging for Adaptive Proton Therapy
K. Lou1,2, D. Mirkovic3, X. Sun2, X. R. Zhu3, J. W. Clark, Jr.2, Y. Shao1
1
The University of Texas MD Anderson Cancer Center, USA; 2Rice University,
USA; 3University of Texas MD Anderson Cancer Center, USA
M21-27 Observation of Tumor Morphological Changes in Lung
Irradiation with Orthogonal Ray Imaging: a Simulation Study
H. Simões1, P. Crespo1,2
1
LIP - Coimbra, Portugal; 2University of Coimbra, Portugal
M21-28 GGEMS-Brachy: Fully GPU Geant4-Based Efficient Monte
Carlo Simulation for Brachytherapy Applications
Y. Lemarechal1, J. Bert1, N. Boussion1, E. Le Fur2, D. Visvikis1
1
LaTIM - INSERM UMR1101 - CHRU Brest, France; 2CHRU Brest, France
M21-29 Proton Dose Verification in the Murine Model with
Positron Emission Tomography of Activated Radioisotopes.
M. J. Nyflot1, E. C. Ford1, S. R. Bowen1, G. Battistoni2, R. Nicolini2, M.
Narayanan1, E. F. Dorman1, R. Emery1, P. E. Kinahan1, G. A. Sandison1, A.
Del Guerra3, R. S. Miyaoka1
1
University of Washington, WA; 2INFN, Italy; 3University of Pisa, Italy
M21-30 Assessment of Microsoft Kinect Technology (Kinect for
Xbox and Kinect for Windows) for Patient Monitoring During
External Beam Radiotherapy
F. Tahavori1, P. Elangovan1, M. Alnowami2, R. Yamani1, E. Donovan3, K. Wells1
1
University of Surrey, UK; 2King Abdulaziz University, Kingdom of Saudi
Arabia; 3Royal Marsden NHS Trust, UK
M21-31 Full Inverse Treatment Planning in Spot-Scanning Ion
Therapy
M. C. Robini, N. Freud, J.-M. Letang
CREATIS (CNRS UMR5220 and INSERM U1044), INSA Lyon, France
M21-32 Dual-Head in-Situ Vs. Full-Ring in-Room TOF-PET for
Quality Assurance in Proton Therapy: a Clinical Case Study
P. Dendooven1, H. J. T. Buitenhuis1, F. Diblen2, D. C. Oxley1, A. Biegun1,
A. J. van der Borden3, S. Brandenburg1, P. Cambraia Lopes4, A. van der
Schaaf3, D. R. Schaart4, S. Vandenberghe2, A. A. van ‘t Veld3
1
University of Groningen, Netherlands; 2Ghent University, Belgium;
3
University Medical Center Groningen, Netherlands; 4Delft University of
Technology, Netherlands
M21-33 18F-FDG imaging to evaluate radioactive 198Au-gold
nanoparticle (R-GNP) therapy for orthotopic brain tumor model
S. Y. Chen, C. H. Chen, C. Y. Chen, C. H. Chen, W. N. Liao, J. K. Chen, C. S.
Yang
National Health Research Institutes, Taiwan
M21-34 Performance Evaluation of SensL SiPM Arrays for HighResolution PET
J. D. Thiessen1, C. Jackson2, K. O’Neill2, D. Bishop3, P. Kozlowski4, F. Retire3,
V. Sossi4, C. J. Thompson5, A. L. Goertzen1
1
University of Manitoba, Canada; 2SensL, Ireland; 3TRIUMF, Canada;
4
University of British Columbia, Canada; 5Montreal Neurological Institute,
Canada
M21-35 Performance Uniformity Evaluation of Two SensLs SiPM
Array Modules
L. Chartier, Y. Qi, M. Petasecca, P. Ihnart, M. Lerch, A. Rosenfeld, University
of Wollongong, Australia; B. M. W. Tsui, Johns Hopkins University, USA
M21-36 A Novel Approach to Position-Sensitive Silicon
Photomultipliers: First Results.
A. Gola, A. Ferri, A. Tarolli, C. Piemonte, FBK, Italy
M21-37 A 4x4 Pixilated Silicon Photomultiplier for a Multi-Channel
Radiation Monitoring System
H. Kim1,2, D. Kim1, S. W. Kim1,3, J. Fowler1
1
Brookhaven National Laboratory, USA; 2Polytechnic Institute of New York
University, USA; 3National Institute on Alcohol Abuse and Alcoholism, USA
M21-38 Comparison of End/Side Scintillator Readout with DigitalSiPM for ToF PET
J. Y. Yeom, R. Vinke, M. F. Bieniosek, C. S. Levin,
M21-39 Effects of Dark Counts on Digital Silicon Photomultipliers
Performance
R. Marcinkowski, S. Espana, R. Van Holen, S. Vandenberghe
Ghent University-iMinds-IBiTech, Belgium
M21-40 Comparison of SDDs and SiPMs Photodetector Options
for INSERT, a New Multi-Modality SPECT/MRI System for Preclinical
and Clinical Imaging
P. Busca1,2, M. Occhipinti1,2, C. Fiorini1,2, A. Butt1,2, R. Peloso1,2, R.
Quaglia1,2, F. Schembari1,2, P. Trigilio1,2, T. Bukki3, G. Nemeth3, P. Major3, G.
Giacomini4, A. Gola4, C. Piemonte4
1
3
Mediso Ltd, Hungary; 4Fondazione Bruno Kessler, Italy
M21-41 Isoelectronic Te Inclusion in ZnSe for Radiation Imaging
Application
C. D. Lee, Raytheon, USA; B. Singh, S. Miller, V. Nagarkar, Radiation
Monitoring Devices, USA
M21-42 Amorphous Selenium (a-Se) Avalanche Photosensor for
Application in Positron Emission Tomography
O. Bubon1,2, G. DeCrencenzo2, J. Rowlands2
1
Lakehead University, Canada; 2Thunder Bay Regional Research Institute,
Canada
M21-43 Experimental Performance Evaluation of Commercial
Photon-Counting CdZnTe Detector Modules for Medical
Applications
M. L. Rodrigues, X. Wang, K. Cao, J. Wang, Y. Zou, Y. Zhang, D. Gagnon
Toshiba Medical Research Institution U.S.A., USA
M21-44 Feasibility Studies on the Organic Semiconductor
Radiation Detector for X-Rays
H. Park, S. Eom, S. Lim, J. Kang, Dankook University, Korea
M21-45 Characterization of a New Gamma-Ray Detector Based on
16x16 Anode PSPMT Coupled with LaBr3 Scintillator
L. Andreani1,2, C. Labanti1,3, F. Fuschino1,3, M. Marisaldi1,3, R. Campana1,3,
P. Malcovati4, M. Grassi4, M. Feroci5,1, Y. Evangelista5,1, A. Rachevski1, A.
Vacchi1, G. Zampa1, N. Zampa6, M. Zuffa1, G. Baldazzi1,2
1
INFN, Italia; 2University of Bologna, Italia; 3Italian National Institute of
Astrophysics, Italia; 4University of Pavia, Italia; 5INAF/IAPS, Italia; 6,
M21-46 Performance Characterization of a New Metal Channel
Photomultiplier Tube for Time-of-Flight and High Resolution PET
Applications
G. B. Ko, J. S. Lee, Seoul National University, South Korea
M21-47 The X’tal Cube with 1 mm3 Isotropic Resolution Based on a
Friday
Stack of Laser-Segmented Scintillator Plates
N. Inadama1, Y. Hirano1, F. Nishikido1, H. Murayama1, M. Nitta2,1, H. Ito1, T.
Yamaya1
1
M21-48 Development of a SiPM based Gamma-Ray Imager Using a
Gd3Al2Ga3O12:Ce (GAGG:Ce) Scintillator Array
M. Georgiou1,2, S. David2, E. Fysikopoulos2,3, G. Loudos2
1
University of Thessaly, Greece; 2Technological Educational Institution of
Athens, Greece; 3National Technical University of Athens, Greece
M21-49 Dual-Energy Imaging with an Active Sandwich Detector
J. C. Han1, D. W. Kim1, S. Yun1, H. Youn1, S. Yun1, S. Kam1, H. K. Kim1,2
1
School of Mechanical Engineering, Pusan National University, Republic of
Korea; 2Pusan National University, Republic of Korea
M21-50 Development of a Ceramic Garnet Scintillator for Positron
Emission Tomography
S. I. Kwon1, G. Baldoni2, Y. Wang2, M. S. Judenhofer1, Y. Yang1, K. S. Shah2,
S. R. Cherry1
1
University of California, Davis, USA; 2Radiation Monitoring Devices, Inc., USA
M21-51 Development of a GAGG Depth-of-Interaction (DOI) Block
Detector Based on Pulse Shape Analysis
S. Yamamoto1, T. Kobayashi1,2, H. Sato3, T. Endo3, Y. Usuki3, K. Kamada4, A.
Yoshikawa4
1
Nagoya University Graduate School of Medicine, Japan; 2Daiyukai General
Hospital, Japan; 3Furukawa Corporation, Japan; 4Tohoku University, Japan
M21-52 A Study of a GEM Tracking Detector for Imaging Positrons
from PET Radioisotopes in Plants
T. Cao1, B. Azmoun2, S. Stoll2, M. L. Purschke2, B. Babst2, P. Vaska1,2, C. L.
Woody2
1
Stony Brook University, USA; 2Brookhaven National Lab, USA
M21-53 A Study on PDP-Based Gas Radiation Detector with
Various Electrode Structures
S. Eom, H. Park, J. Kim, J. Kang, Dankook University, Korea; H. Lee, K. Lee,
M21-54 Development of a DAQ Circuit for a Plasma-Display-Panel
Based X-Ray Detector
H. Lee, K. Lee, E. Min, Korea University, Korea; S. Eom, H. Park, J. Kang,
Dankook, Korea
M21-55 Development of a Versatile Wafer-Scale Large-Area CMOS
X-ray Flat-Panel Detector
S. K. Heo, J. P. Kosonen, D. A. Im, S. J. Lee, T. W. Kim, Rayence, Co., Ltd.,
Korea; H. K. Kim, Pusan National University, Korea
M21-56 X-Ray Imaging with YSO Scintillating Crystal Array
M. Kim, J. Lee, I. Park, SungKyunKwan University, Korea
M21-57 Development of Beam Monitor for Therapeutic Proton Pencil
Beam Scanning Mode Using Cherenkov Radiation in Optical Fibers
M. Y. Kim, D. H. Shin, S. B. Lee, Y. K. Lim, National Cancer Center, Korea;
U. J. Hwang, National Medical Center, Korea; J. M. Son, Korea University,
Korea; S. G. Kim, Konkuk University, Korea
M21-58 A Time-of-Flight Neutron Activation Method for
Measuring Trace Element Concentrations in vivo
T. Cao1, S. Mitra2, P. Vaska1,3
1
Stony Brook University, USA; 2Sandia National Laboratories, USA;
3
M21-59 A Convenient Light Guide for Trial Production in Its
Optimization Process
N. Inadama, Y. Hirano, F. Nishikido, H. Murayama, M. Nitta, T. Yamaya
National Institute of Radiological Sciences, japan
M21-60 Medical Imaging and Non-Destructive Testing with the
New LAMBDA Detector
F. M. Epple1, D. Pennicard2, S. Smoljanin2, S. Lange2, G. Potdevin1, S. Ehn1,
D. Renker1, S. Kaczmarz1, H. Graafsma2, F. Pfeiffer1
1
Tchnical University Munich, Germany; 2DESY, Germany
M21-61 Image Science with Photon-Processing Detectors
L. Caucci, A. K. Jha, L. R. Furenlid, E. W. Clarkson, M. A. Kupinski, H. H.
Barrett, University of Arizona, USA
M21-62 Characterization of a Handheld Gamma Camera for
Intraoperative Use for Sentinel Lymph Node Biopsy
A. L. Goertzen1, J. D. Thiessen1, B. McIntosh1, M. J. Simpson2, J.
Schellenberg2
1
University of Manitoba, Canada; 2Cubresa, Inc., Canada
M21-63 Development and Evaluation of Compact and High
Resolution CdTe/CZT Detectors for Handheld Gamma Camera and
Probe Application
Z.-M. Shen, L.-J. Meng, University of Illinois at Urbana-Champaign, USA
M21-64 Characteristic Evaluation of Hamamatsu10720
Photomultiplier Tube (PMT) for Intraoperative Applications
M. H. Chin1, H. S. Yoon1, H. J. An1, S. K. Kim2, J. S. Lee1
1
Seoul National University College of Medicine, Korea; 2National Cancer
Center, Korea
M21-65 Limited-Angle Low Dose SPECT Imaging of Small Organs
and Pediatric Patients Using a Low-Cost High Performance
Compact Camera
B. M. W. Tsui, J. Xu, A. Rittenbach, Johns Hopkins University, USA; A.
Fabbri, V. Cencelli, University of “Roma Tre”, Italy
M21-66 A Feasibility Study of Portable Compton Camera for
Metastatic Lymph Node Detection
Y. Nakamura, K. Shimazoe, T. Iriya, Y. Okumura, M. Takahashi, K.
Matsusaka, M. Fukayama, T. Momose, Y. Seto, H. Takahashi
M21-67 An Innovative Radio-Guided Surgery Technique for
Complete Resection of Brain Tumors
R. Faccini1, G. Baroni2, F. Collamati1, M. Cremonesi3, P. Ferroli4, C.
M. Grana3, S. Morganti5, A. Russomando6, M. Schiariti4, E. SolfaroliCamillocci6
1
University of Rome, Italy; 2Politecnico di Milano, Italy; 3European Institute
of Oncology (IEO), Italy; 4Istituto Neurologico Carlo Besta, Italy; 5Italian
Institute for Nuclear Physics (INFN), Italy; 6Italian Institute of Technology
(IIT), Italy
M21-68 Investigation of Optimization-Based Reconstruction for
Intra-Operative Neurological Imaging
X. Han1, S. Oishi2, M. D. Silver3, Y.-B. Chang3, E. Y. Sidky1, X. Pan1
1
The University of Chicago, USA; 2Toshiba Medical Systems Corporation,
Japan; 3Toshiba Medical Research Institute USA, USA
M22 Image Reconstruction II / Other Imaging
Technologies II
Session Chairs: Soo-Jin Lee, Paichai University, Dept. of Electronic
Engineering, South Korea
Grant T. Gullberg, Lawrence Berkeley National
M22-1 Patient-Specific Optimization of Reconstruction Methods
for Dual Isotope Myocardial Perfusion SPECT
X. Li, M. Ghaly, J. M. Links, E. C. Frey, Johns Hopkins University, USA
M22-2 Influence of MRI Artifacts on PET Image Reconstruction
Using MRI-Based Priors
L. L. Caldeira1, J. Scheins1, P. Almeida2, H. Herzog1
1
Institute of Neuroscience and Medicine, Forschungszentrum Juelich,
Germany; 2Instituto de Biofisica e Engenharia Biomedica, Science Faculty of
University of Lisbon, Portugal
M22-3 Evaluation of Reconstruction-Based Compensation for
Imaging Degrading Factors in I-123 FP-CIT Brain SPECT
Y. Du, N. Anizan, Y. Dong, Z. Szabo, M. Lodge, E. C. Frey
Johns Hopkins Medical Institutions, USA
Friday
M22-4 Influence of Three Reconstruction Algorithms on the
Estimation of Standardized Uptake Values
E. Grecchi1, K. Thielemans1,2, G. Cook1, C. Tsoumpas1
1
King’s College London, UK; 2University College London, UK
M22-5 Fast, Robust Dynamic Field-of-View Adjustment for
Iterative Reconstruction of Dedicated Breast CT Images
I. Reiser1, E. Y. Sidky1, R. M. Nishikawa1, K. Yang2, J. M. Boone2, X. Pan1
1
University of Chicago, US; 2University of California at Davis, US
M22-6 Iterative Image Reconstruction from Low-Dose Patient
Breast CT Data
J. Bian1, K. Yang2, E. Sidky1, J. Boone2, X. Pan1
1
The University of Chicago, US; 2University of California at Davis, US
M22-7 Time Reconstruction Study Using Tubes of Response
Backprojectors in List Mode Algorithms, Applied to Breast PET
Based on Monolithic Crystals
L. Moliner1, A. Gonzalez1, C. Corracher2, P. Conde1, P. Bellido1, E. Crespo1,
L. Hernandez1, A. Iborra1, J. P. Rigla1, M. J. Rodriguez-Alvarez1, F.
Sanchez1, M. Seimetz1, A. Soriano1, L. F. Vidal1, J. M. Benlloch1
1
I3M, Institute of Instrumentation for Molecular Imaging, Spain;
2
Oncovision, GEM Imaging SA, Valencia
M22-8 Verifying Cone-Beam CT Extended Axial Coverage with
Iterative Reconstruction Using Real Data
A. M. Davis, E. A. Pearson, C. A. Pelizzari, X. Pan
University of Chicago, USA
M22-9 Investigation on Scale-Based Neighborhoods in MRFs for
Statistical Iterative CT Reconstruction
H. Zhang1, Y. Liu1, J. Wang2, J. Ma1,3, H. Han1, Z. Liang1
1
Stony Brook University, USA; 2University of Texas Southwestern Medical
Center, USA; 3Southern Medical University, China
M22-10 Impact of the Depth of Interaction in Reconstruction of
Small-Animal SPECT Data Acquired with a Space-Variable-Focusing
Collimator
D. Benoit1, S. Matrejean2, F. Mathy3, G. Montemont3, I. Buvat1
1
QIM IMNC-IN2P3/CNRS, France; 2Biospace Lab, France; 3CEA LETI, France
M22-11 Image Reconstruction of Rectangular PET Ssystems Using
Distance-Driven Projections
H. Qian, R. M. Manjeshwar, GE Global Research, USA
M22-12 Modeling of Pixelated Detector in SPECT Pinhole
Reconstruction
B. Feng, Siemens Medical Solutions USA, USA
M22-13 Impact of TOF Information in OpenPET Imaging
H. Tashima, T. Yamaya, National Institute of Radiological Siences, Japan
M22-14 Dose Reduction Achieved by Dynamically Collimating the
Redundant Rays in Fan-Beam and Cone-Beam CT
Y. Xia, M. Berger, C. Riess, J. Hornegger, A. Maier
Friedrich-Alexander-University Erlangen-Nuremberg, Germany
M22-15 Optimizing Image Reconstruction for Clustered Pinhole PET
M. C. Goorden1, F. van der Have1,2,3, F. J. Beekman1,2,3
1
Delft University of Technology, Netherlands; 2University Medical Center
Utrecht, Netherlands; 3Molecular Imaging Laboratories, Netherlands
M22-16 TV-Based DOI De-Blurring Model for the Dual-Head FlatPanel PET System
H.-Y. Chou1, C.-M. Kao2, C.-T. Chen2, C.-Y. Chou1
1
National Taiwan University, Taiwan; 2The University of Chicago, USA
M22-17 Acceleration of Filtered Back-Projection Algorithm for 3D
Cone-Beam CT Reconstruction Using Parallel Computation
J. Rajruangrabin, S. S. Thongvigitmanee, S. Aootaphao, P.
Thajchayapong,
National Science and Technology Development Agency, Thailand
M22-18 GPU-Accelerated Motion Compensated OSEM List-Mode
PET Reconstruction Using a Time-Averaged Sensitivity Matrix
R. Bashar, W. J. Ryder, G. I. Angelis, S. R. Meikle, R. R. Fulton
The University of Sydney, Australia
M22-19 Ultra Fast TOF 3D Reconstruction Using SIMD and
Symmetry Superior to GPU Implementation
I. Hong, Z. Burbar, Siemens Medical Solutions, USA
M22-20 High-Speed Reconstruction for Oblique-View CT
K.-C. Jin, Korea Institute of Industrial Technology, South Korea
M22-21 Cache-Optimised 3D PET Image Reconstruction Using
Ordered Subsets in Combination with Highly Rotation-Symmetric
Voxel Assemblies
J. J. Scheins, H. Herzog, U. Pietrzyk, N. J. Shah
Institute of Neuroscience and Medicine INM-4, Germany
M22-22 GPU-Accelerated Iterative 3D CT Reconstruction Using
Exact Ray-Tracing Method for Both Projection and Backprojection
V.-G. Nguyen, Le Quy Don Technical University, Vietnam; J. Jeong, S.-J. Lee,
Paichai University, S. Korea
M22-23 Acceleration of Calculation of Sensitivity Images and ToF
List-Mode OSEM Reconstruction Using Multiple GPUs
X. Song1, S. Prevrhal2, J. Cui3, C. Dai1, C. Tung1, C. S. Levin3, L. Shao1
1
Philips Healthcare, USA; 2Philips Healthcare, Germany; 3Stanford
University, USA
M22-24 Fast Scatter Correction for Cone-Beam Computed
Tomography Using the Statistical Method
S. Aootaphao, S. S.Thongvigitmanee, J. Rajruangrabin, P. Yampri,
T. Srivongsa, National Electronics and Computer Technology Center,
Thailand; P. Thajchayapong, National Science and Technology
Development Agency, Thailand
M22-25 A Method for Simultaneous Image Reconstruction and
Beam Hardening Correction
P. Jin, C. A. Bouman, Purdue University, USA; K. D. Sauer, University of
Notre Dame, USA
M22-26 An Image Reconstruction Framework for Arbitrary
Positron Emission Tomography Geometries
A. J. Mathews, K. Li, S. Komarov, Q. Wang, B. Ravindranath, J. A.
O’Sullivan, Y.-C. Tai, Washington University in St Louis, USA
M22-27 VACT: Visualization-Aware CT Reconstruction
Z. Zheng, , ; K. Mueller, Stony Brook University, USA
M22-28 Optimization of Filtered Back-Projection for a Rayleigh
Task
A. A. Sanchez, E. Y. Sidky, X. Pan,
University of Chicago, USA
M22-29 A Concurrent, Object-Oriented API for Statistical Image
Reconstruction
C. Giha, F. R. Rannou
University of Santiago of Chile, Chile
M22-30 Adaptive Triangular Mesh Image Representation
F. Buyens, M. A. Quinto, CEA LIST, France; D. Houzet, Universit de Grenoble,
France
M22-31 Quadratic Regularization Design for 3D Axial CT: Towards
Isotropic Noise
J. H. Cho, J. A. Fessler, University of Michigan, USA
M22-32 Constrained TV-Minimization Reconstruction from
Exterior CT Data
B. Chen1, M. Yang2, Z. Zhang1, X. Han1, J. Bian1, E. Sidky1, X. Pan1
1
The University of Chicago, USA; 2Beijing University of Aeronautics and
Astronautics, China
M22-33 Investigation of Constrained TV-Minimization
Reconstruction for Industrial CT Applications
B. Chen1, M. Yang2, Z. Zhang1, J. Bian1, X. Han1, E. Sidky1, X. Pan1
1
The University of Chicago, USA; 2Beijing University of Aeronautics and
Astronautics, China
M22-34 Hybrid Method of Quadratic and Total Variation
Penalizations in the CT Image Reconstruction
R. Kohara, Y. Ogura, Hitachi Medical Corporation, Japan
Friday
M22-35 Edge-Preserving Bilateral Filtering for Images Containing
Dense Objects in CT
Q. Yang1,2, A. Maier1, N. Maass2, J. Hornegger1
1
Friedrich-Alexander University Erlangen-Nuremberg, Germany; 2Siemens
AG, Germany
M22-36 Motion-Compensated Image Reconstruction for Cardiac
CT with Sinogram-Based Motion Estimation
J. H. Cho, J. A. Fessler, University of Michigan, USA
M22-37 Metal Artifact Correction Algorithm for CT
D. Pal, K. S. Sharma, J. Hsieh, GE Healthcare, USA
M22-38 A Metal Projection Segmentation Algorithm Based on
Random Walks for Dental CBCT Metal Artifacts Correction
X. Xu, L. Li, L. Zhang, Q. Wang
M22-39 Improving Image Quality of a Mobile Cone-Beam CT by
Use of Scatter and Beam-Hardening Corrections
M. Park1, H.-S. Lee2, K.-W. Kim2, S. Cho1
1
Korea Advanced Istitute of Science and Technology, South Korea;
2
Nanofocusray Co. Ltd., South Korea
M22-40 Parametric mapping model for bladder using free-form
deformation
Y. Zhao1, Y. Liu2, J. Feng1, H. Lu2
1
North West University, China; 2Fourth Military Medical University, China
M22-41 Vector Quantization-Based Automatic Detection of
Pulmonary Nodules in Thoracic CT Images
H. Han1, L. Li2, F. Han1, H. Zhang1, W. Moore1, Z. Liang1
1
Stony Brook University, USA; 2City University of New York at College of
Staten Island, USA
M22-42 A Feasibility Study of High Order Texture Features with
Application to Pathological Diagnosis of Colon Lesions for CT
Colonography
B. Song1, G. Zhang2, H. Wang1, F. Han1, W. Zhu1, H. Lu2, Z. Liang1
1
M22-43 A New Method for Evaluating Detectability of Artery
Contours in CT Angiography of the Head on the Basis of Their
Phase Information
Y. Enchi, Osaka University Hospital, Japan; K. Imai, M. Ikeda, I. Takase,
C. Yamauchi-Kawaura, Nagoya University Graduate school of Medicine,
Japan; M. Mori, Nagoya University Hospital, Japan
M22-44 Volume Measurement of Breast Cancer in Magnetic
Resonance Image Using Active Contours Segmentation
S. Kim, Korea Institute of Science and Technology, Korea; H.-Y. Lee, Seoul
National University Bundang Hospital, Korea; M. J. K. Kang, Seoul National
University, Korea; K. M. Kim, Korea Institute of Radiological & Medical
Science, Korea
M22-45 A Robust Distortion Correction Method Insensitive to
Image Registration Algorithms for Magnetic Resonance Diffusion
Tensor Imaging (MR-DTI)
D. H. Lee1,2, C. P. Hong2, B. S. Han1
1
Yonsei University, Rep. of Korea; 2Korea Research Institute of Standards
and Science (KRISS), Rep. of Korea
M22-46 Comparison of Fractional Anisotropy for Correction
Schemes of Corrupted Images in Diffusion Tensor Imaging
C. P. Hong1, D. H. Lee1,2, J. W. Park2, S. H. Jang3
1
Korea Research Institute of Standards and Science, S.Korea; 2Yonsei
University, S.Korea; 3Catholic University of Daegu, S.Korea
M22-47 Development of a Simulation Environment for Cerenkov
Luminescence Imaging
M. Pagliazzi1, E. Ciarrocchi2, A. Del Guerra2, N. Belcari2, F. Boschi3, A. E.
Spinelli1
1
San Raffaele Scientific Institute, Italy; 2University of Pisa, Italy; 3University
of Verona, Italy
M22-48 Volume-Selective Fluorescence X-Ray Counting - Towards
3-D Mapping of Naturally Occurring Trace Metals Without Image
Reconstruction
J. George1, A. Groll1, P. J. La Raviere2, L.-J. Meng1
1
University of Illinois at Urbana-Champaign, USA; 2Univ. of Chicago, USA
M22-49 Monte Carlo PENRADIO System for Dose Calculation in
Medical Imaging
C. Adrien1, M. Lopez Noriega1, G. Bonniaud2, J.-M. Bordy1, C. Le Loirec1,
B. Poumarede1
1
CEA Saclay, France; 2Centre de Medecine Nucleaire du Morbihan, France
M22-50 Practical Method for Patient Based Dose Estimation in
Abdominal CT Images
P.-H. Jeon1,2, D.-H. Kim1, B.-D. Jo1, H.-J. Kim1, S.-S. Jeon2
1
Yonsei university, Republic of Korea; 2Yonsei University, Wonju Severance
Christian Hospital, Republic of Korea
Imaging II / Tracer Kinetics
Session Chairs: Hiroshi Watabe, Tohoku University, Japan
Se Young Chun, Ulsan National Institute of Science
and Technology (UNIST), South Korea
M23-1 Monotonic Iterative Algorithms for Crystal Efficiencies
Estimation from Normalization Data and Single Rates Estimation
from Compressed Random Coincidence Data
V. Y. Panin, Siemens Healthcare, USA
M23-2 Model Based Normalization of Genisys4 Small Animal PET
Scanner
B. Bai1, M. Dahlbom2, M. Bardis1, R. Park1, P. S. Conti1
1
University of Southern California, U.S.A; 2University of California, U.S.A
M23-3 Effect of Single Gamma Correction for Determination
of Optimal I-124 PET Acquisition Setting based on Image
Characteristics
A. R. Yu1, J. S. Kim1, H. J. Kim2, S. M. Lim1, K. M. Kim1
1
kirams, Korea; 2Yonsei Univ, Korea
M23-4 A Fast and Accurate PET System Timing Alignment Method
with Capability of TDC Linearity Calibration for High-Resolution
TOF-PET
H. Li1, C. Wang2, S. An2, X. Lv2, H. Baghaei1, Y. Zhang1, R. Ramirez1, W.-H.
Wong1
1
University of Texas - M.D. Anderson Cancer Center, USA; 2United Imaging
Healthcare, Co., China
M23-5 The Impact of Time-of-Flight Timing Resolution Using
Clinical FDG Patient Data
S. D. Wollenweber, D. L. McDaniel, C. W. Stearns, M. Tohme
GE Healthcare, USA
M23-6 Potential Impact of Hybrid CZT SPECT/CT Imaging on
Estimation Accuracy of Left Ventricular Volumes and Ejection
Fraction: A Phantom Study
Y.-H. Liu1,2, V. Sandoval2, A. J. Sinusas1,2
1
Yale University School of Medicine, USA; 2Yale New Haven Hospital, USA
M23-7 Positron Range in PET Imaging: Including the Non-Standard
Isotopes
L. Jodal, Aalborg University Hospital, Denmark; C. Le Loirec, CEA, France;
C. Champion, Centre d’Etudes Nucleaires de Bordeaux Gradignan, France
M23-8 A Statistical Analysis of Sources of Systematic and Random
Variation in Dynamically Imaged Uniform Cyclinder Data from an
ACRIN Study of PET Scanning Sites for Cancer Imaging Trials.
F. O’Sullivan1,2, J. Scheuermann3,4, M. Muzi2,4, A. Opanowski4, P. E. Kinahan2,4
1
University College Cork, Ireland; 2University of Washington, USA;
3
University of Pennsylvania, USA; 4American College of Radiology Imaging
Network, USA
Friday
M23-9 Multi-Contrast, Multi-Resolution Phantom Materials for
Radionuclide Imaging Using a Single Activity Concentration Fill
S. D. Wollenweber, GE Healthcare, USA
M23-10 Image Quantification in High-Resolution PET Assessed
with a New Anthropomorphic Brain Phantom
J. Johansson1, J. Teuho1, J. Lindn1,2, U. Tuna3, T. Tuula1, S. Virva1, T. Mika1
1
Turku University Central Hospital, Finland; 2University of Turku, Finland;
3
Tampere University of Technology, Finland
M23-11 Dual Isotope SPECT Imaging of I-123 and I-125
S. Lee, J. Gregor, D. Osborne, J. Wall, Univerrsity of Tennessee, USA
M23-12 Impacts of Reduction of CT Radiation Dose on PET in PET/
CT Imaging
T. Xia1, W. Wang1, C. Ji1, X. Niu1, H. Ye1, M. Winkler2, M. Teshigawara3, Y.
Noshi3, D. Gagnon1
1
Toshiba Medical Research Institute USA, Inc., USA; 2STEINBERG
DIAGNOSTIC MEDICAL IMAGING CENTER, USA; 3Toshiba Medical Systems
Corporation, Japan
M23-13 Unwrapping Differential Phase Contrast Images with Multi
Energy Data
F. M. Epple, P. Thibault, G. Potdevin, S. Ehn, J. Herzen, A. Hipp, F. Pfeiffer
Technical University of Munich, Germany
M23-14 Material Decomposition Using a Singular Value
Decomposition Method
T. Maji, M. Matsumoto, F. Kaibuki, K. Ogawa, Hosei University, Japan
M23-15 Development of True Size Measuring System on Magnified
Pinhole Image using Distance Measuring Ultrasonic Sensor
G. Ahn, Daegu Il Science High School, South Korea; K. D. Kim, Yeongnam
University, South Korea; D. H. Kim, B.-C. Ahn, Kyungpook National
University School of Medicine and Hospital, South Korea
M23-16 Projection-Based Tissue Activity Estimation of PET Images
J. Cal-Gonzalez1, S. C. Moore2, M.-A. Park2, J. L. Herraiz3, J. J. Vaquero4, M.
Desco4,5, J. M. Udias1
1
Universidad Complutense Madrid, CEI Moncloa, Spain; 2Brigham and
Womens Hospital and Harvard Medical School, USA; 3Madrid-MIT
M+Vision Consortium, Mass. Institute of Technology, USA; 4Hospital
General Universitario Gregorio Maraon, CIBERSAM, Spain; 5Universidad
Carlos III de Madrid, Spain
M23-17 A Cautionary Note on the Use of Constrained
Reconstructions for Quantification of Regional PET Imaging Data
J. Huang1, E. Wolsztynski1, D. Hawe1, K.-M. Kim2, K. Roy Choudhury3, F.
O’Sullivan1,2,4
1
University College Cork, Ireland; 2University of Wisconsin, USA; 3Duke
University, USA; 4University of Washington, USA
M23-18 Optimization and Evaluation of Compensation Methods
and Reconstruction Parameters for Tc-99m Pertechnetate/Tc-99m
MIBI Subtraction SPECT
T. Ekjeen, C. Tocharoenchai, Faculty of Medical Technology, Mahidol
University, Thailand; P. Pusuwan, Siriraj hospital, Thailand; G. S. K. Fung, E.
C. Frey, Johns Hopkins University, USA
M23-19 Evaluation of the HRRT and HR+ for the Task of Reference
Region Analysis Using a Realistic Head and Brain Phantom
A. J. Reader1, R. Bouhachi2, S. Matei2, R. Mio2, J.-P. Soucy1
1
McGill University, Canada; 2McGill University Health Centre (MUHC), Canada
M23-20 Clinical NECR in 18F-FDG PET Scans: Optimization
of Patient Specific Activity and Variable Acquisition Time.
Relationship with SNR
T. Carlier1, L. Ferrer2, H. Necib1, C. Bodet-Milin1, C. Rousseau2, F. KraeberBodere1
1
University Hospital - Nantes Hotel Dieu, France; 2Integrated Center of
Oncology, France
M23-21 Optimization of Imaging Protocols for Quantitative
Myocardial PET Imaging with 18F-Flurpiridaz
K. Wiyaporn1,2, C. Tocharoenchai1, P. Pusuwan1, G. Fung2, T. Higuchi3, T.
250 Friday - MIC Poster Presentations Feng2, B. Tsui2
Mahidol University, Thailand; 2JHU, US; 3University Hospital Wrzburg,
Germany
M23-22 Hoffman Phantom-Based PET-CT Scanner Harmonization
I. J. Lee, J. S. Kim, W. H. Kim, J. S. Kim, J. S. Oh, Asan Medical Center, South
Korea
M23-23 Quantitative Breast Imaging in Spectral Mammography
Using a Photon-Counting Detector
S. Lee, Y.-N. Choi, H.-J. Kim, Yonsei University, Republic of Korea
M23-24 Adaptive Threshold Method Based on PET Measured
Lesion-to-Background Ratio for the Estimation of Metabolic Target
Volume from 18F-FDG PET Images
F. Gallivanone1, F. Fazio2, L. Presotto1, M. C. Gilardi1, I. Castiglioni1
1
IBFM - CNR, Italy; 2University of Milano-Bicocca, Italy
M23-25 Equivalent Al Based Energy Weighting Imaging with a
Photon Counting X-Ray Detector
Y.-N. Choi, S. Lee, H.-J. Kim, Yonsei unversity, Korea
M23-26 Automatic alignment and registration for PET/CT
reconstructions by the cross-correlation maximization method
Y. Zhang, H. Baghaei, H. Li, R. Ramirez, W.-H. Wong
University of Texas MD Anderson Cancer Center, USA
M23-27 Sinogram Restoration of Anode Angle Effects in Helical
Cone-Beam CT
K. J. Little, P. J. La Riviere, University of Chicago, USA
M23-28 1-D Interpolation Method for the HRRT PET Sinogram
Gap-Filling
S. Peltonen, U. Tuna, U. Ruotsalainen, Tampere Univ. of Technology, Finland
M23-29 Kinetic Modeling of 18F-FMISO in Glioblastoma
M. Bentourkia, Université de Sherbrooke, Canada; F. Lamare, M. Allard, P.
Fernandez, Universit de Bordeaux2- EPHE, France
M23-30 Impact of Motion on Indirect and Direct Estimation of
Kinetic Parameters from Dynamic PET Data
F. A. Kotasidis1,2, C. Tsoumpas3, G. I. Angelis4, J. C. Matthews2, A. J.
Reader5, H. Zaidi1,6
1
Kingdom; 3King’s College London, United Kingdom; 4University of Sydney,
Australia; 5McGill University, Canada; 6Geneva University, Switzerland
M23-31 Do Scatter and Random Corrections Affect the Errors in
Kinetic Parameters in Dynamic PET? - A Monte Carlo Study
I. Häggström1, A. Larsson1, C. R. Schmidtlein2, M. Karlsson1
1
Umeå University, Sweden; 2Memorial Sloan-Kettering Cancer Center, USA
M23-32 The influence of Time Sampling on Parameters in the
Logan Plot
E. Wallsten, J. Axelsson, M. Karlsson, K. Riklund, L. Nyberg, I. Häggström,
A. Larsson, Umeå University, Sweden
M23-33 Longitudinal PET Image Analysis of Alzheimer’s Disease
Using Parametric Response Map
S. H. Lee, J. H. Kim, S. J. Son, H. J. Park, Sungkyunkwan University, S. Korea
M23-34 Application of Parametric Response Map to Distinguish
Between Viable and Non-Viable Hepatocellular Carcinoma of
Dynamic CT(PDF)
J. H. Kim, S. H. Lee, S. J. Son, H. J. Park, School of Eletronic Electrical
Engineering SungKyunKwan University, Korea, Korea; S. J. Choi, Gachon Gil
Hospital, Korea
M23-35 Direct Parametric Reconstruction from Undersampled (k,
t)-Space Data in Dynamic Contrast Enhancement MRI
N. Dikaios, D. Atkinson, University College London, UK
M23-36 Direct 4D Patlak Parametric Image Reconstruction Algorithm
Integrating Respiratory Motion Correction for Oncology Studies
T. Merlin1, A. J. Reader2, P. Fernandez1, D. Visvikis3, F. Lamare1
1
Hopital de Bordeaux, INCIA, CNRS UMR 5287, France; 2Brain Imaging
Center Montreal Neurological Institute McGill university, Canada;
3
UMR1101 INSERM, LaTIM, Universit de Bretagne Occidentale, France
Friday
1
Friday
M23-37 A 5D Anthropomorphic Numerical Phantom for
Respiratory-Gated Parametric Imaging Simulation Studies in
Dynamic Emission Tomography
F. A. Kotasidis1,2, C. Tsoumpas3, I. Polycarpou3, H. Zaidi1,4
1
Kingdom; 3King’s College London,St. Thomas’ Hospital, United Kingdom;
4
Geneva University, Switzerland
M23-38 Investigation of Arterial Input Function Determination in
Mice Using Beta Microprobes
F. Buether, D. Reinhardt, M. P. Law, K. Bolwin, K. P. Schaefers
European Institute for Molecular Imaging, Germany
M23-39 Population Derived and Principle Component Analysis
Based Model for the [18F]PBR111 Arterial Input Function in Rats
J. Verhaeghe1, S. Deleye1, H. Amhaoul2, S. Stroobandts3, S.
Dedeurwaerdere2, S. Staelens1
1
Universiy of Antwerp, Belgium; 2University of Antwerp, Belgium; 3University
Hospital Antwerp, Belgium
M23-40 Image-Based Fractional Flow Reserve Using Coronary
Angiography
J. Yao, Toshiba Medical Research Institute USA, Inc., USA; T. Sakaguchi,
Toshiba Medical Systems Corporation, Japan; O. Yousuf, J. Trost, J. A. C.
Lima, R. T. George, The Johns Hopkins University, USA
M23-41 Development of a Method for Automated Myocardial
Perfusion Measurement by Using Coronary X-ray Angiography
Images
T. Sakaguchi, Toshiba Medical Systems Corporation, Japan; T. Ichihara, T.
Natsume, Fujita Health University School of Health Science, Japan; J. Yao,
Toshiba Medical Research Institute USA, Inc., USA; O. Yousuf, J. C. Trost, J. A.
C. Lima, R. T. George, The Johns Hopkins University, USA
M23-42 A Graphical Analysis for Myocardial Blood Flow and
Partition Coefficient with Contrast Enhanced Cardiac MRI
T. Natsume1, M. Nakano2, K. Kitagawa3, M. Ishida3, H. Sakuma3, T.
Ichihara1
1
Fujita Health University School of Health Sciences, Japan; 2Fujita Health
University Graduate School of Health Sciences, Japan; 3Mie University
Hospital, Japan
M23-43 A Rat Brain Stereotaxic Atlas of Fine Anatomical
Delineations in Paxinos Space and Its Automated Application in
Voxel-Wise Analysis
B. C. Shan1,2, B. B. Nie1,2
1
Institute of high energy physics, Chinese academy of sciences, China;
2
Beijing Engineering Research Center of Radiographic Techniques and
Equipment, China
M23-44 Factor Analysis for Segmentation of Tumor Region from
Dynamic Contrast Enhanced MRI in Patient with Osteosarcoma:
Pilot Study
W. Lee, K. M. Kim, I. O. Ko, J. A. Park, Korea Institute of Radiological and
Medical Sciences, Korea; C.-B. Kong, B. H. Byun, I. Lim, B. I. Kim, S. M. Lim,
Korea Cancer Center Hospital, Korea
M23-45 Applying a 4D [11C]Raclopride Template to Automated
Binding Potential Estimation in HRRT Brain PET
P. Novosad, M. Bieth, H. Lombaert, K. Siddiqi, A. J. Reader
McGill University, Canada
M23-46 Correlation Between 99mTc-IDA-D-[c(RGDfK)]2, a Novel
Integrin αvβ3-Binding Peptide and 18F-FDG in Patients with Brain
Tumor
J. H. Kim, H.-Y. Lee, B. C. Lee, B. S. Moon, C.-Y. Kim, S. E. Kim
Seoul National University Bundang Hospital, Korea
Notes
253
Notes
Friday
254 Friday
Notes
255
07:00
MIC RC5
07:30
08:00
Saturday, 2 November
GBR 103
07:00
07:30
08:00
Sunday, 3 November
ASEM 203A&B
08:30
09:00
09:30
Quantitative Imaging II
08:30
09:00
09:30
10:00
10:00
10:30
11:00
11:30
12:00
12:30
M25: High Resolution and PreClinical Imaging
Instrumentation
10:30
11:00
12:00
12:30
13:00
13:00
13:30
13:30
14:00
14:00
14:30
14:30
15:00
15:00
15:30
15:30
16:00
16:00
16:30
16:30
17:00
17:00
17:30
17:30
18:00
18:00
18:30
18:30
19:00
19:00
19:30
19:30
MWK4 - Intraoperative and Intratherapy Molecular Imaging
11:30
Saturday
256 256
Saturday
Saturday - MIC Oral
Presentations
Imaging II
Saturday, Nov. 2 08:00-10:00 GBR 103
Session Chairs: Irène Buvat, IMNC UMR 8165 CNRS, Orsay, France
Steven R. Meikle, University of Sydney, Australia
M24-1 (08:00) Time Alignment of Time of Flight Positron Emission
Tomography Using the Background Activity of LSO
H. E. Rothfuss, A. P. Moor, Siemens, USA
M24-2 (08:15) Combined Deadtime and Pile-up Correction for the
MR-Compatible BrainPET Scanner
C. P. Weirich, J. J. Scheins, M. E. Gaens, H. Herzog, N. J. Shah
Forschungszentrum Juelich, Germany
M24-3 (08:30) A Response Model for Semiconductor Photon
Counting Detectors
Y. Zou, X. Wang, C. Cao, M. L. Rodrigues, Y. Zhang, D. Gagnon
Toshiba Medical Research Institute USA, Inc., USA
M24-4 (08:45) MR-Based Attenuation Correction for Combined
Brain PET/MR: Robustness of Atlas- and Pattern Recognition
Method to Atlas Registration Failures
F. Mantlik1,2, I. Bezrukov1,2, M. Hofmann1,2, B. Schoelkopf2, B. J. Pichler1
1
University of Tuebingen, Germany; 2Max Planck Institute for Intelligent
Systems, Germany
M24-5 (09:00) Normalization Coefficient Computing for Data,
Combining Counts Acquired Distantly in Space and Time
V. Y. Panin, M. E. Casey, Siemens Healthcare, USA
M24-6 (09:15) Multi-Centre Assessment of HRRT Image Uniformity
via Ge-68 and F-18 Cylindrical and Anthropomorphic Phantoms
A. J. Reader, McGill University, Canada; A. Rahmim, Johns Hopkins
University, USA; S. H. Keller, Rigshospitalet, Copenhagen University
Hospital, Denmark; S. Blinder, University of British Columbia, Canada;
M. Sibomana, Sibomana Consulting SPRL, Belgium; J.-P. Soucy, Centre
hospitalier de l’universite de Montreal, Canada
M24-7 (09:30) Variability of SUV in Quantitative PET Imaging: SUVPeak Partial-Voxel Sampling
L. J. Rankine, T. G. Turkington, Duke University, USA
M24-8 (09:45) Metal Artefact Reduction by Inpainting Process in
X-Ray Tomography
F. Buyens, A. Vabre, CEA LIST, France; J. G. Dobbe, G. J. Streekstra,
University of Amsterdam, The Nederlands
M25 High Resolution and Pre-Clinical Imaging
Instrumentation
Saturday, Nov. 2 10:30-12:30 GBR 103
Session Chairs: Yong Choi, Sogang University, South Korea
David Brasse, CNRS - IPHC, France
M25-1 (10:30) Dual-Resolution MicroSPECT Mouse Imaging Using
a Triple-Head SPECT System
S. C. Moore, M.-A. Park, Brigham & Women’s Hospital and Harvard Medical
School, USA; D. Xia, S. D. Metzler, University of Pennsylvania, USA
M25-2 (10:45) Model-Based Normalization of a Fractional-Crystal
Collimator Prototype for Small-Animal PET Imaging
Y. Li, S. Matej, J. S. Karp, S. D. Metzler
Saturday - MIC Oral Presentations 257
Saturday
M25-3 (11:00) Characterization of a Trapezoidal Slat Crystal PET
Detector
R. S. Miyaoka, A. L. Lehnert, W. C. Hunter
M25-4 (11:15) First Measurements of a 512 PSAPD Prototype of a
Sub-MM Resolution Clinical PET Camera
A. Vandenbroucke, P. D. Reynolds, F. W. Lau, D. Innes, A. Mihlin, D. L.
Freese, D. F. Hsu, C. S. Levin
M25-5 (11:30) Continuous Depth-of-Interaction Encoding PET
Detector Using Digital Silicon Photomultiplier
M. S. Lee, J. S. Lee
Seoul National University College of Medicine, Republic of Korea
M25-6 (11:45) Light-Sharing Interface for dMiCE Detectors Using
Sub-Surface Laser Engraving
W. C. J. Hunter, R. S. Miyaoka, T. K. Lewellen
M25-7 (12:00) Enhancing Spatial Resolution of Timepix Positron
Camera Based on Classification of Primary Interactions using SVM
Q. Wang, K. Shi, Z. Liu, S. Ziegler
Technische Universitaet Muenchen, Germany
M25-8 (12:15) Performance Evaluation of the PET Component of
Novel Preclinical PET/CT Scanner Using NEMA NU-4 2008 Standard
N. Belcari1,2, N. Camarlinghi1,2, M. Cecchetti1, S. Ferretti1,2, M. Hohberg1, D.
Panetta3, P. Salvadori3, G. Sportelli1,2, K. Straub2, A. Del Guerra1,2
1
University of Pisa, Italy; 2INFN, Italy; 3CNR, Italy
258 Saturday - MIC Oral Presentations Saturday
Notes
259
Notes
Saturday
260 Saturday
Notes
261
Author Index
Contributions from Collaborations
3D Diamond Group & RD42J4-6/p.160
3DMiMic CollaborationRD2-4/p.83
AEgIS CollaborationN34-1/p.187
ALICE CollaborationN40-6/p.191
AMoRE CollaborationN26-1/p.150
NPO2-66/p.166
AMS CollaborationN33-1/p.186
AMS-02 CollaborationN31-1/p.185
APXS X-ray Spectrometer Project Group
NPO2-116/p.170
ARGO-YBJ CollaborationN2-8/p.89
Astrosat CZTI teamN45-7/p.195
ATLAS CollaborationN5-4/p.90
N6-4/p.91
N13-1/p.108
N21-4/p.147
N44-3/p.194
NPO2-87/p.168
NPO2-144/p.172
NPO2-147/p.172
NPO2-150/p.173
ATLAS LAr collaborationN5-2/p.90
Atlas Liquid Argon Calorimeter Group
NPO2-155/p.173
NPO2-178/p.175
NPO2-227/p.178
ATLAS Muon CollaborationN5-6/p.90
NPO2-88/p.168
ATLAS Planar Pixel Sensors R&D Collaboration
N41-5/p.192
ATLAS Semi Conductor Tracker collaboration
NPO2-92/p.168
ATLAS Tile Calorimeter Group
N17-1/p.111
NPO2-173/p.174
AX-PETM03-2/p.156
Belle II CollaborationNPO2-135/p.172
N6-5/p.91
Belle II TOP GroupN35-7/p.188
CALET collaborationN31-3/p.185
CALICE CollaborationN35-2/p.187
N35-3/p.187
N35-4/p.188
CBM CollaborationNPO2-59/p.165
Center for Materials Research, Washington State
University
R10-3/p.159
ClearPEM collaborationM03-3/p.156
CLOUD collaborationNPO1-130/p.127
CMS CollaborationN5-1/p.90
N5-5/p.90
N6-2/p.91
N6-6/p.91
N10-7/p.106
N18-7/p.112
N32-1/p.185
N32-2/p.186
N45-10/p.195
NPO1-122/p.126
NPO2-89/p.168
NPO2-91/p.168
NPO2-93/p.168
NPO2-146/p.172
CMS Computing teamN18-2/p.112
CMS Tracker CollaborationN13-3/p.108
N41-6/p.192
COMPASS THGEM GroupN2-5/p.88
DEPFET CollaborationN35-6/p.188
EndoTOFPET-US collaboration
M12-58/p.214
FACT CollaborationN9-2/p.105
FIRST CollaborationN16-6/p.111
FLASH Portals ProgramN15-2/p.110
Geant4 Hadronic Working Group
N29-3/p.153
GEM-TPC CollaborationN10-1/p.106
GET CollaborationN17-8/p.111
HEPP-FEE GroupNPO2-115/p.170
HP3-WP22 and Crystal Clear Collaborations
N12-7/p.108
HVCMOS CollaborationN22-3/p.147
IceCube CollaborationN9-1/p.105
INSIDE Collaboration (Pisa,Bari, Roma
HT3-1/p.80
JEM-EUSO CollaborationN31-4/p.185
NPO2-230/p.178
J-PARC E16 collaborationN2-6/p.88
KAGRA CollaborationN1-1/p.87
KIMS collaborationN32-7/p.186
LHCb CollaborationN5-8/p.91
N5-3/p.90
N5-7/p.90
N33-3/p.186
N41-7/p.192
N44-2/p.194
LHCb Outer Tracker collaboration
N10-8/p.106
N33-4/p.186
LHCb RICH GroupN43-2/p.193
MAJORANA collaborationNPO2-94/p.168
MAXI TeamN1-7/p.88
MEG CollaborationN13-5/p.108
N24-7/p.149
N32-5/p.186
MSL DAN and MSL Sceince Team
N31-6/p.185
NA62 CollaborationN2-3/p.88
NA62 Collaboration and CERN EN-ICE group
N6-3/p.91
NA62 LAV Working GroupNPO2-131/p.171
NIU-Fermilab-Delhi pCT collaboration
HT2-3/p.80
NKS2 CollaborationN36-1/p.188
PANDA collaborationN18-6/p.112
NPO2-203/p.176
Pavia GroupNPO2-132/p.171
PERCIVAL CollaborationN30-6/p.153
PHENIX CollaborationNPO2-202/p.176
N16-2/p.110
N16-5/p.111
PICSEL team of IPHC-Strasbourg
N14-1/p.109
N35-5/p.188
PoGOLite CollaborationN9-5/p.105
POLAR CollaborationN17-4/p.111
NPO1-74/p.123
NPO2-183/p.175
RD52 CollaborationN13-6/p.108
Redsox collaborationN1-2/p.87
REWARD ConsortiumNPO1-173/p.130
SCP Slim Edge projectN34-2/p.187
SOFIA/ANDES-collaborationNPO1-128/p.127
SuperNEMO CollaborationNPO2-191/p.176
The DAMPE Tracker Collaboration
N31-2/p.185
The PHENIX CollaborationN26-5/p.151
the TAS collaboration N42-3/p.193
TOPxLEPS CollaborationN24-4/p.149
U.S. Short Baseline Reactor Experiment Interest
Group
NPO2-97/p.168
UBATNPO2-127/p.171
UFFO CollaborationN31-5/p.185
NPO2-120/p.170
Watchman CollaborationN13-7/p.108
Contributions from Individuals
A
Abba, Andrea NPO2‑194/p.176
NPO2‑167/p.174
NPO2‑168/p.174
NPO2‑192/p.176
NPO2‑166/p.174
NPO1‑143/p.128
Abbas, Sajid M12‑38/p.212
M20‑8/p.225
Abd. Rahni, Ashrani Aizzuddin M18‑4/p.234
Abdalah, Mahmoud M17‑11/p.232
Abdoli, Mehrsima M18‑58/p.238
Abe, Shinji M12‑13/p.210
Abe, Toshinori N30‑3/p.153
NPO2‑134/p.171
Abgrall, Nicolas N26‑8/p.151
Abovyan, Sergey N44‑5/p.194
N40‑8/p.191
Aburto‑Vivians, Danilo M13‑9/p.215
Acerbi, Fabio N8‑7/p.92
Acharya, Y. B.NPO2‑118/p.170
NPO2‑136/p.172
NPO2‑70/p.166
Achterhold, Klaus M12‑21/p.211
Ackerman, Jerome L.
M05‑3/p.196
Acosta, Luis N26‑4/p.150
Adachi, Ichiro NPO1‑153/p.129
Adachi, Shunsuke NPO1‑144/p.128
N11‑2/p.106
NPO1‑145/p.128
NPO1‑150/p.128
Adadurov, Alexsandr F.
NPO1‑188/p.131
Adams, Aaron LR10‑5/p.159
Adekola, Aderemi N38‑4/p.190
Adrian, Ivan N24‑6/p.149
Adriani, Oscar N31‑7/p.185
Adrien, Camille M22‑49/p.249
Agasthya, Greeshma M13‑24/p.216
Agata, Yasunori R13‑1/p.202
Aghababyan, Arthur NPO2‑201/p.176
NPO2‑233/p.178
Aglieri Rinella, Gianluca N14‑2/p.109
Agosteo, Stefano HT3‑10/p.81
NPO1‑223/p.134
Aguiar, Ivana R05‑13/p.136
Aguilar, Albert M16‑40/p.229
Ahangarianabhari, Mahdi N14‑8/p.109
Ahmad, Salleh J2‑3/p.115
Ahmad, Touseef M18‑64/p.239
Ahmed, Abdella M16‑59/p.231
Ahn, Byeong‑Cheol M23‑15/p.250
Ahn, Chiwon NPO1‑191/p.132
Ahn, Gilhwan M23‑15/p.250
Ahn, Il Jun M18‑3/p.234
M17‑35/p.233
M18‑49/p.238
Ahn, Jungkeun NPO2‑85/p.167
Ahn, Sangtae M10‑8/p.200
M17‑5/p.231
M04‑5/p.157
Aichert, Andre M13‑33/p.216
M18‑51/p.238
Aimo, Ilaria N22‑1/p.147
Akagi, Takashi HT3‑8/p.81
Akerstedt, Henrik NPO2‑173/p.174
Akhmetshin, Ravel R.
NPO1‑37/p.120
Al‑Aifari, Reema M17‑16/p.232
Al‑Amoudi, O. S.
NPO2‑1/p.161
Alaribe, Leonard NPO1‑45/p.120
N12‑4/p.107
Al‑Batati, Saeed M
M18‑55/p.238
Alberti, Roberto N30‑7/p.154
Aldosari, Abdullah H
NPO2‑51/p.165
NPO2‑48/p.164
Alemayehu, Bemnet NPO2‑16/p.162
Alessio, Adam M12‑27/p.211
Alessio, Adam M.
M13‑30/p.216
M17‑6/p.231
Alexopoulos, Theodoros N5‑6/p.90
Alha, Lauri NPO2‑119/p.170
Alimov, Svyatoslav NPO1‑224/p.134
Allard, Michle M23‑29/p.251
Alling, Bjorn N7‑8/p.92
Almasri, Omar NPO2‑42/p.
Al‑Matouq, Faris A.
NPO2‑62/p.166
NPO2‑1/p.161
Almeida, Pedro M18‑27/p.236
M22‑2/p.245
Almer, Jonathan D.
N12‑2/p.107
Alnowami, Majdi M21‑30/p.242
Alnowami, Majdi R.
M18‑55/p.238
Alozy, Jerome J4‑1/p.160
Alrowaili, Ziyad A.
RD2‑9/p.83
NPO2‑48/p.164
NPO2‑57/p.165
Alshaika, S. NPO2‑51/p.165
NPO2‑57/p.165
al‑Shatouri, Mohammad M05‑7/p.196
Al‑Sulimane, Mohammad E.
M18‑55/p.238
Altan, Mahmet Akif NPO2‑211/p.177
NPO2‑210/p.177
Alvarez, Jos M.R05‑50/p.139
Alves, Francisco NPO1‑134/p.127
Amako, Katsuya NPO2‑130/p.171
N18‑4/p.112
Amaldi, Ugo NPO1‑125/p.127
Amano, Sho N16‑7/p.111
Amaya, Kenji M20‑2/p.225
M20‑3/p.225
Ambrosi, Giovanni J2‑2/p.115
Ambwani, Sonal M12‑50/p.213
Amerio, Silvia N44‑1/p.194
Amhaoul, Halima M23‑39/p.252
Amin, Ahmad M05‑7/p.196
Amman, Mark N22‑8/p.
Amos, Richard M21‑4/p.240
Amselem, Arnaud NPO2‑134/p.171
An, Hyun Joon M21‑64/p.245
M18‑63/p.239
An, Shaohui M11‑10/p.204
M23‑4/p.249
An, Su Jung M21‑1/p.240
M11‑29/p.206
NPO2‑24/p.162
M16‑50/p.230
Andersen, Flemming L.
M18‑32/p.236
Andersen, Ken H.
NPO1‑201/p.133
Andersson, Hans NPO2‑119/p.170
Andre, Luc M02‑3/p.155
Andreani, Lucia N14‑8/p.109
M13‑29/p.216
M21‑45/p.243
Andreotti, Mirco NPO2‑159/p.173
NPO2‑158/p.173
Andricek, Ladislav N35‑6/p.188
Andritschke, Robert NPO2‑105/p.169
Anevski, Dragi NPO1‑201/p.133
Angal‑Kalinin, Deepa N27‑6/p.151
Angelis, Georgios I.
M13‑15/p.215
M22‑18/p.246
M17‑28/p.233
M17‑29/p.233
M18‑13/p.235
M23‑30/p.251
M18‑26/p.236
Angell, Christopher NPO2‑27/p.163
Angelone, Maurizio N42‑5/p.193
Angelucci, Bruno NPO2‑196/p.176
Anghel, Vinicius N.
NPO2‑34/p.163
Anizan, Nadege M22‑3/p.245
Anokhin, Igor E.NPO2‑44/p.164
Antilogus, Pierre NPO1‑85/p.124
Anton, Gisela M12‑8/p.210
RD2‑10/p.83
Antoniassi, Marcelo M12‑12/p.210
NPO2‑50/p.165
M12‑11/p.210
Anton‑Rodriguez, Jose M.
M18‑39/p.237
M17‑29/p.233
M17‑28/p.233
Anzivino, Giuseppina N43‑3/p.193
Anzorena, Marcos NPO2‑175/p.174
Aoki, Dai NPO1‑34/p.119
Aoki, Kazuya NPO1‑120/p.126
Aoki, Toru R06‑5/p.113
R11‑3/p.201
R05‑47/p.139
R05‑23/p.137
R05‑18/p.136
R03‑2/p.94
Aoki, Tsuyoshi NPO2‑104/p.169
Aootaphao, Sorapong M22‑24/p.247
M22‑17/p.246
M18‑33/p.236
M12‑4/p.210
Aoyagi, Hideki NPO2‑104/p.169
Apostolakis, John N18‑1/p.112
Aqariden, Fikri R03‑6/p.94
Ara, Kuniaki M12‑28/p.211
M12‑18/p.211
Arai, Yasuo NPO1‑88/p.124
NPO1‑86/p.124
NPO2‑124/p.171
N41‑2/p.192
NPO1‑184/p.131
N1‑4/p.88
NPO1‑3/p.117
Arakawa, Kazuo M11‑21/p.205
M18‑35/p.237
M21‑5/p.240
Araki, Sakae NPO2‑3/p.161
Aramaki, Tsuguo NPO2‑128/p.171
Aramaki, Yoki NPO1‑120/p.126
Archambault, Louis RD2‑2/p.83
HT3‑6/p.81
Ardashev, Eugeny N.
R05‑46/p.139
Ariño, Gerard R06‑6/p.113
Armaingaud, Christopher NPO1‑122/p.126
Armitage, John NPO2‑34/p.163
Arnaud, Nicolas NPO1‑157/p.129
N43‑1/p.193
Arnold, Charles N26‑7/p.151
Arnold, Nicolas R05‑48/p.139
Arodzero, Anatoli NPO1‑105/p.125
Arques, Marc M09‑4/p.199
Arridge, Simon M17‑24/p.233
Arrowood, Lloyd M17‑4/p.231
Arutinov, David NPO1‑6/p.117
Asai, Makoto N18‑4/p.112
Asbah, Nedaa N43‑7/p.193
Aschauer, Stefan N41‑3/p.192
NPO2‑105/p.169
Ashitomi, Kanichi R05‑47/p.139
Asma, Evren M17‑6/p.231
M17‑5/p.231
M04‑5/p.157
M10‑8/p.200
M12‑27/p.211
Aso, Tsukasa N18‑4/p.112
NPO2‑130/p.171
HT3‑8/p.81
Aspinall, Michael N39‑2/p.190
Astromskas, Vytautas N30‑7/p.154
Asztalos, Stephen J.
N24‑1/p.149
Athanasiades, Athanasios NPO1‑215/p.134
NPO1‑218/p.134
NPO1‑217/p.134
Atia, Ayman M05‑7/p.196
Atkinson, David M17‑24/p.233
M23‑35/p.251
Atsumi, Katsuhiro R11‑3/p.201
Attili, Andrea HT1‑3/p.79
Aucott, Timothy J.
N25‑8/p.150
Auffray, Etiennette J2‑4/p.115
N8‑5/p.92
M11‑4/p.204
N32‑4/p.186
N36‑6/p.188
J1‑6/p.114
Auricchio, Natalia R05‑50/p.139
R05‑30/p.137
Autret, Awen M07‑6/p.198
M17‑38/p.234
Axelsson, Jan M23‑32/p.251
M18‑47/p.238
Ay, Mohammad Reza M13‑22/p.216
Ayaz‑Maierhafer, Birsen NPO2‑67/p.166
N25‑1/p.149
Ayoub, Mohamed R15‑4/p.226
R01‑6/p.93
Aza, Eleni N39‑3/p.190
NPO1‑113/p.126
Azman, Suleyman NPO2‑210/p.177
NPO2‑211/p.177
Azmi, Khasmidatul A.
N2‑2/p.88
Azmoun, B. N2‑4/p.88
Azmoun, Babek M21‑52/p.244
B
Baba, Takashi NPO1‑145/p.128
Babichev, Eugeny A.
NPO1‑37/p.120
Babkin, Vadim NPO1‑119/p.126
Babst, Ben M21‑52/p.244
N33‑6/p.186
Babst, Benjamin M16‑22/p.228
Baciak, James E.R05‑8/p.135
R04‑6/p.95
Bacon, Jeffrey D.NPO1‑115/p.126
NPO2‑78/p.167
N38‑5/p.190
Badawi, Ramsey D.
M03‑1/p.156
Badiei, Shirin M08‑6/p.199
Bae, Seungbin M16‑50/p.230
R05‑28/p.137
Baek, Seung H.M12‑3/p.210
Baesso, Paolo N45‑4/p.195
N10‑5/p.106
Bagchi, Srijeeta N19‑7/p.144
R05‑41/p.138
Baghaei, Hossain M11‑10/p.204
M18‑2/p.234
M23‑4/p.249
M23‑26/p.251
Bagliesi, Maria G.
N24‑8/p.149
Bagolini, Alvise N13‑2/p.108
Bahadori, Amir A.
NPO1‑135/p.127
RD1‑1/p.82
Bai, Bing M23‑2/p.249
M09‑3/p.199
M17‑10/p.232
M11‑12/p.205
Bai, Xiaowei M05‑1/p.196
Baig, Farina NPO2‑34/p.163
Baio, Elisa M21‑2/p.240
HT2‑6/p.80
Bak, Sang‑In NPO2‑142/p.172
NPO1‑179/p.131
Bal, Harshali M04‑2/p.156
Balakrishnan, Karthik M16‑19/p.228
Balbi, Gabriele NPO1‑68/p.122
Balbuena, Juan Pablo R01‑8/p.93
R15‑2/p.226
Baldazzi, Giuseppe M13‑29/p.216
N14‑8/p.109
M21‑45/p.243
Baldini, Alessandro M.
NPO1‑141/p.128
Baldini, Wander NPO2‑159/p.173
NPO2‑158/p.173
Baldoni, Gary M21‑50/p.244
Balfour, Daniel M18‑5/p.234
Balkin, Ethan M14‑1/p.223
Ball, David RD2‑5/p.83
Balla, Alessandro N2‑1/p.88
Ballabriga, Rafael R15‑3/p.226
N14‑5/p.109
Ballif, Christophe N24‑3/p.149
Ban, Yuichiro N42‑1/p.192
Bando, Naoto N28‑2/p.152
Bandstra, Mark S.
N25‑8/p.150
Banerjee, D.NPO2‑136/p.172
Banovac, Filip M05‑4/p.196
Bao, T. NPO2‑69/p.166
Bao, Tianwei N9‑3/p.105
Barbarino, Giancarlo NPO1‑112/p.126
Barbato, Felicia Carla Tiziana NPO1‑112/p.126
Barber, H. Bradford R03‑7/p.94
Barber, Thomas N41‑4/p.192
Barber, William C.
J3‑5/p.116
R06‑4/p.113
PC1‑1/p.97
Barbero, Marlon NPO1‑6/p.117
Bardies, Manuel M13‑13/p.215
Bardis, Michelle M23‑2/p.249
Baring, Matthew G.
N9‑6/p.105
Barkan, Shaul N22‑4/p.147
Barker, W. C.M18‑12/p.235
Barnett, Gerald HT4‑1/p.81
Barnett, Robert K.
M18‑15/p.235
Barney, David N32‑1/p.185
Barnowski, Ross N11‑3/p.107
N25‑4/p.150
Baroni, Guido HT3‑4/p.81
M21‑12/p.241
M21‑67/p.245
Barrett, Harrison H.
M21‑61/p.245
R03‑7/p.94
Barrillon, Pierre N9‑7/p.105
Barrio, John M11‑44/p.207
M07‑4/p.198
NPO2‑177/p.175
Barthelmy, Scott N9‑6/p.105
Barton, Paul J.N22‑8/p.
J4‑5/p.160
Basaglia, Tullio N6‑8/p.91
Bashar, Rezaul M22‑18/p.246
Bashkirov, Vladimir N19‑1/p.145
Basili, Angelo R05‑30/p.137
Bastieri, Denis N44‑1/p.194
Baszczyk, Mateusz M16‑47/p.230
NPO2‑75/p.167
Batic, Matej N29‑5/p.153
N29‑6/p.153
N29‑4/p.153
Batsch, T. NPO2‑69/p.166
Batsch, Tadeusz N9‑3/p.105
Battistoni, Giuseppe M21‑29/p.242
Bauer, Christopher E.
M12‑43/p.212
Bauer, Julia M21‑6/p.240
M21‑12/p.241
HT3‑4/p.81
M07‑3/p.198
Bavdaz, Marcos N34‑3/p.187
Bayer, Florian M12‑8/p.210
Beach, Mattew NPO2‑31/p.163
Beaudoin, Jean‑Francois M11‑60/p.208
M11‑59/p.208
Beaulieu, Luc RD2‑2/p.83
RD2‑6/p.83
Beaumont, Jonathan N3‑5/p.89
Bec, Julien M03‑1/p.156
M05‑1/p.196
Bech, Martin M20‑5/p.225
Bechetoille, Edouard NPO2‑226/p.178
Becker, Hans‑Werner N7‑2/p.91
Becker, Julian N30‑1/p.153
N14‑7/p.109
Beckmann, Felix NPO2‑47/p.164
Becla, Krzysztof NPO1‑27/p.119
R02‑6/p.94
R04‑5/p.95
Becla, Piotr R04‑5/p.95
R02‑6/p.94
Bedda, Cristina N22‑1/p.147
Beddar, Sam RD2‑1/p.83
M21‑7/p.240
HT3‑6/p.81
HT2‑5/p.80
Beddar, Sam A.RD2‑6/p.83
RD2‑2/p.83
Bednarczyk, P.NPO1‑21/p.118
Bednarzik, Martin R05‑48/p.139
Bedrik, Alexsandra I.
NPO1‑188/p.131
Beekman, Freek J.
M22‑15/p.246
Begalli, Marcia N18‑5/p.112
NPO2‑141/p.172
NPO2‑140/p.172
Beging, Stefan M18‑38/p.237
Beilicke, Matthias N9‑6/p.105
Bekaert, Virgile M11‑63/p.209
Belas, Eduard R05‑19/p.136
R05‑40/p.138
R03‑3/p.94
R15‑1/p.226
Belcari, Nicola M25‑8/p.258
M22‑47/p.248
Belev, George M12‑6/p.210
Bell, S. T.R15‑5/p.226
Bell, Zane W.NPO1‑203/p.133
N6‑8/p.91
NPO2‑67/p.166
Bellido, Pablo M11‑27/p.206
NPO2‑73/p.167
M22‑7/p.246
M17‑20/p.232
NPO2‑76/p.167
Bellido, Pablo J.M11‑6/p.204
Bellinger, Steven L.
R14‑1/p.203
Beltran, Chris HT1‑2/p.79
Bemmerer, Daniel M21‑11/p.241
Benard, Francois M16‑29/p.229
Benassi, Giacomo R05‑30/p.137
R10‑6/p.159
Bencivenni, Giovanni N2‑1/p.88
Bendahan, Joseph N27‑6/p.151
NPO2‑21/p.162
Benes, Petr N43‑7/p.193
Benhalouche, Saadia M07‑6/p.198
Benlloch, Jose M. M11‑6/p.204
M22‑7/p.246
M17‑20/p.232
M11‑27/p.206
M16‑40/p.229
NPO2‑76/p.167
NPO2‑73/p.167
Bennati, Paolo N43‑8/p.193
M16‑20/p.228
M16‑18/p.228
NPO2‑232/p.178
Benoit, Didier M22‑10/p.246
J3‑6/p.116
Bensalah, Hakima R09‑2/p.158
Bentefour, Hassan HT3‑5/p.81
Bentley Tammero, Lance NPO2‑37/p.164
Bentos Pereira, Heinkel R05‑13/p.136
Bentourkia, M’Hamed M23‑29/p.251
Berdichevsky, Vadim NPO2‑36/p.164
Berg, Eric M03‑1/p.156
M16‑8/p.227
Bergamaschi, Anna N46‑3/p.195
Berge, Hans Kristian Otnes NPO2‑211/p.177
NPO2‑210/p.177
Berger, Martin M22‑14/p.246
N10‑1/p.106
Bergmann, Benedikt N43‑7/p.193
Berker, Yannick M17‑2/p.231
Berkvens, Paul NPO2‑106/p.169
Bernabeu, Jose NPO2‑72/p.166
Bernard, Ethan N3‑7/p.89
Bernstein, Adam N15‑3/p.110
N16‑1/p.110
Bert, Christoph M21‑12/p.241
HT3‑4/p.81
Bert, Julien M13‑8/p.215
M07‑6/p.198
M17‑38/p.234
M21‑28/p.242
M18‑28/p.236
Berthel, Marc M19‑3/p.224
Berthelette, E.NPO1‑192/p.132
Berthoumiex, Eric N39‑3/p.190
Bertolone, Gregory NPO1‑9/p.117
Bertone, P. F.N38‑1/p.189
Bertozzi, William N37‑1/p.189
Bertuccio, Giuseppe N14‑8/p.109
Betancourt, Christopher N41‑4/p.192
Betcke, Marta MN37‑4/p.189
Bettane, Julien N16‑4/p.110
N4‑1/p.89
Bettarini, Stefano NPO1‑8/p.117
Beyer, Thomas M18‑32/p.236
Bezrukov, Ilja M24‑4/p.257
M18‑24/p.236
Bhandari, Harish B
N7‑5/p.92
N12‑2/p.107
J3‑1/p.115
Bhattacharya, Manojeet M13‑16/p.215
Bhattacharya, Pijush R14‑5/p.203
Biagioni, Andrea NPO2‑204/p.176
Bian, Junguo M12‑32/p.212
M22‑6/p.246
M22‑33/p.247
M22‑32/p.247
M12‑33/p.212
Bian, Zhaoying M17‑12/p.232
M11‑42/p.207
M12‑30/p.212
Bianco, Laura N30‑1/p.153
N14‑7/p.109
Bickell, Matthew G.
M18‑10/p.235
M18‑26/p.236
M17‑27/p.233
Biegalski, Stephen N24‑1/p.149
Biegun, Aleksandra M21‑32/p.242
HT2‑4/p.80
Biegun, Aleksandra K
HT3‑7/p.81
Bielajew, Alex FN29‑1/p.152
Bieniosek, Matthew F.
M03‑6/p.156
M16‑33/p.229
M16‑38/p.229
M11‑18/p.205
M16‑24/p.228
M21‑38/p.243
Bier, Bastian M18‑18/p.235
Bieth, Marie M23‑45/p.252
Bigongiari, Gabriele B.
N24‑8/p.149
Bilki, Burak N2‑7/p.89
Birch, Jens NPO1‑201/p.133
NPO1‑196/p.132
N23‑3/p.148
N7‑8/p.92
N23‑7/p.148
Birkenfeld, Bozena M13‑31/p.216
Birumachi, Atsushi NPO1‑211/p.133
Bisello, Dario NPO1‑5/p.117
Bisello, Francesca RD2‑10/p.83
Bishop, Daryl M21‑34/p.243
M12‑41/p.212
M16‑42/p.229
Biskup, Bartolomej N43‑7/p.193
Bisogni, Maria Giuseppina J2‑2/p.115
NPO2‑219/p.177
Bissi, Lucia NPO1‑167/p.130
Biswas, Koushik R11‑7/p.201
Bizarri, Gregory A.
NPO1‑78/p.123
NPO1‑77/p.123
N4‑7/p.90
Bizzarri, Emanuele NPO1‑15/p.118
Black, Andrs R09‑2/p.158
Blackberg, Lisa NPO2‑40/p.164
Blackie, Douglas N15‑7/p.110
Blackston, Matthew A.
N25‑1/p.149
Blackwell, Timothy B.
NPO2‑33/p.163
Blahuta, Samuel NPO1‑197/p.132
Blaj, Gabriel NPO2‑113/p.170
NPO2‑114/p.170
NPO2‑111/p.169
Blake, Samuel J.M07‑7/p.198
Blalock, Bonnie D.
NPO1‑76/p.123
Blanco, Alberto M11‑61/p.208
Blasi, Nives NPO1‑20/p.118
NPO1‑15/p.118
NPO1‑21/p.118
Blassick, Thomas NPO2‑42/p.
Blevis, Ira R02‑4/p.94
Blin, Sylvie N9‑7/p.105
Blinder, Stephan M24‑6/p.257
Bliss, David R04‑5/p.95
Bliss, Mary M14‑1/p.223
Boardman, David M13‑15/p.215
R03‑8/p.
NPO2‑25/p.163
Boatner, Lynn AN12‑6/p.107
NPO1‑47/p.121
Boca, Gianluigi N18‑6/p.112
Bocci, Valerio NPO2‑195/p.176
Bodaghee, Arash N9‑6/p.105
Bodet‑Milin, Caroline M23‑20/p.250
Boehlen, Till T.M21‑24/p.242
Boehnel, Michael N37‑3/p.189
Bogsrud, Trond V.
M17‑39/p.234
Bohlen, Markus NPO2‑145/p.172
Bohm, Christian NPO2‑201/p.176
NPO2‑187/p.175
NPO2‑233/p.178
Boiano, Ciro N26‑4/p.150
NPO1‑20/p.118
NPO1‑21/p.118
Boisson, Frederic M13‑15/p.215
M18‑13/p.235
M13‑12/p.215
M11‑63/p.209
M11‑43/p.207
Boisvert, Alexandre J1‑5/p.114
Boivin, Jonathan RD2‑6/p.83
Bojtos, Peter NPO1‑30/p.119
Bolch, Wesley E.M13‑32/p.216
Boldini, Milena NPO1‑68/p.122
Bolotnikov, Aleksey E.
R05‑28/p.137
R13‑5/p.202
R05‑36/p.138
R05‑3/p.135
R13‑3/p.202
R09‑3/p.158
R02‑1/p.93
R05‑22/p.136
R05‑21/p.136
R10‑4/p.159
R05‑11/p.136
R13‑4/p.202
R09‑4/p.158
J4‑3/p.160
R13‑6/p.202
R05‑16/p.136
R10‑5/p.159
Bolst, David HT3‑10/p.81
Bolton, Gary T.NPO1‑136/p.128
Bolwin, Konstantin M23‑38/p.252
Bombelli, Luca N30‑7/p.154
J4‑8/p.160
NPO2‑225/p.178
Bomben, Marco N13‑2/p.108
Bompard, Frederic NPO1‑6/p.117
Bonacini, Sandro N14‑2/p.109
Bonacorsi, Daniele N18‑2/p.112
Bonaiuto, Vincenzo N44‑6/p.194
N17‑3/p.111
Bonechi, Simone N24‑8/p.149
Bonissent, Alain M12‑26/p.211
NPO2‑102/p.169
Bonito, Gregory NPO2‑54/p.165
N19‑6/p.145
Bonniaud, Guillaume M22‑49/p.249
Bontempi, Marco M13‑29/p.216
Bonvicini, Valter N31‑7/p.185
Boone, John M12‑32/p.212
M22‑6/p.246
Boone, John MM22‑5/p.246
Bordy, Jean‑Marc M22‑49/p.249
Borghi, Giacomo M11‑2/p.204
NPO1‑102/p.125
Borovlev, Yury A.
NPO1‑37/p.120
Borozdin, Konstantin N.
NPO1‑115/p.126
N38‑5/p.190
NPO2‑78/p.167
N42‑1/p.192
Borrel, Jacques NPO1‑69/p.122
Borsato, Martino NPO1‑157/p.129
Borsdorf, Anja M08‑5/p.199
Boscardin, Maurizio R05‑39/p.138
N13‑2/p.108
N41‑1/p.192
Boscher, Daniel NPO1‑182/p.131
Boschi, Federico M22‑47/p.248
Boshkova, Tatiana A.
NPO1‑180/p.131
Bosisio, Luciano N13‑2/p.108
Bossini, Edoardo NPO2‑162/p.174
Boston, Andrew J.
N38‑4/p.190
NPO1‑136/p.128
Boston, Helen C.
NPO1‑136/p.128
N38‑4/p.190
Botas, Pablo M21‑22/p.242
M07‑4/p.198
Botnar, Rene M11‑62/p.209
Botte, James NPO2‑34/p.163
Boucher, Yvan A.R05‑32/p.137
R09‑6/p.158
Bouckaert, Carmen M14‑7/p.223
Boudjemline, Khalil NPO2‑34/p.163
Bouhachi, Reda M23‑19/p.250
Bouman, Charlesa A.
M22‑25/p.247
Bourne, Mark N20‑3/p.146
Bourret, Edith D.
NPO1‑77/p.123
N4‑7/p.90
NPO1‑78/p.123
Boursier, Yannick M12‑26/p.211
Bousse, Alexandre M17‑15/p.232
M12‑56/p.214
Boussion, Nicolas M07‑6/p.198
M21‑28/p.242
M13‑8/p.215
Boutchko, Rostyslav M17‑11/p.232
NPO2‑81/p.167
M06‑3/p.197
Bowden, Nathaniel NPO2‑97/p.168
Bowen, Stephen R.
M21‑29/p.242
Bradford, Robert NPO2‑110/p.169
Brady, Thomas J.M05‑3/p.196
Braga, Leo H.M02‑3/p.155
Brambilla, Sergio NPO1‑15/p.118
NPO1‑21/p.118
NPO1‑20/p.118
Branchini, Paolo NPO2‑165/p.174
N2‑1/p.88
Brandenburg, Sytze HT2‑4/p.80
M21‑32/p.242
Brandt, Sren NPO2‑123/p.170
Brankov, Jovan G.
M18‑60/p.239
M12‑19/p.211
Brasse, David M12‑24/p.211
M11‑63/p.209
Braun, Christian M20‑6/p.225
Braverman, Joshua B.
N36‑7/p.188
Bravin, Alberto NPO2‑106/p.169
Brecher, Charles N12‑2/p.107
Brefczynski‑Lewis, Julie M12‑43/p.212
Breidenbach, Martin NPO2‑98/p.168
Brejnholt, Nicolai F.
N25‑7/p.150
NPO2‑13/p.162
Brennan, James N3‑4/p.89
Brennan, Kathleen N4‑7/p.90
Breton, Dominique N13‑8/p.108
Bretz, Thomas N9‑2/p.105
Breuer, Johannes NPO1‑103/p.125
Breugnon, Patrick NPO1‑6/p.117
Brezina, Christoph N14‑5/p.109
Brianzi, Mirko N19‑2/p.145
Bridges, Nathan NP2‑2/p.87
Briggl, Konrad J1‑4/p.114
NPO2‑229/p.178
Britvitch, Ilia NPO2‑69/p.166
N9‑3/p.105
NPO1‑166/p.130
Brochard, Thierry NPO2‑106/p.169
Broche, Antoine NPO1‑183/p.131
Broennimann, Christian R03‑4/p.94
N46‑4/p.195
N46‑2/p.195
Brogi, Paolo N24‑8/p.149
Brons, Stephan M21‑6/p.240
Bronson, Frazier NPO1‑71/p.122
Brown, James R.R01‑6/p.93
R15‑4/p.226
Brown, Steven T.NPO2‑39/p.164
Brubaker, Erik NPO1‑219/p.134
N3‑4/p.89
NPO1‑158/p.129
N7‑5/p.92
Bruer‑Krisch, Elke NPO2‑106/p.169
Brugger, Markus N27‑8/p.151
Brunet, Charles‑Antoine M11‑59/p.208
Bruschini, Claudio M02‑3/p.155
Bruyndonckx, Peter M20‑5/p.225
Bruzzi, Mara RD2‑3/p.83
HT2‑2/p.79
N19‑2/p.145
N19‑3/p.145
Bryman, Douglas NPO2‑34/p.163
Brzezinski, Karol M11‑41/p.207
Bubon, Oleksandr M21‑42/p.243
Buccantonio, Martina NPO1‑125/p.127
Buccheri, Giovanni NPO1‑143/p.128
Bucci, Francesca N43‑3/p.193
Bucci, Joseph A.NPO2‑56/p.165
RD2‑8/p.83
N19‑4/p.145
Bucciolini, Marta N19‑3/p.145
N19‑2/p.145
HT2‑2/p.79
RD2‑3/p.83
Buchinger, F.N38‑1/p.189
Buckley, Steve J1‑2/p.114
Budano, Antonio N2‑1/p.88
NPO2‑165/p.174
Budassi, Michael M16‑22/p.228
N33‑6/p.186
Budden, Brent S.NPO1‑75/p.123
N36‑2/p.188
Budtz Jorgensen, Carl R05‑30/p.137
NPO2‑123/p.170
R05‑50/p.139
Bueno, James NPO2‑34/p.163
Buether, Florian M23‑38/p.252
M18‑37/p.237
Buffet, Jean‑Claude NPO1‑213/p.134
NPO1‑224/p.134
N23‑7/p.148
Bugalho, Ricardo M18‑27/p.236
M18‑20/p.235
M16‑49/p.230
NPO2‑221/p.178
Buitenhuis, H. J.M21‑32/p.242
Bukki, Tamas M21‑40/p.243
Buliga, Vladimir R05‑14/p.136
Burbar, Ziad M22‑19/p.247
Burdin, Sergey NPO2‑150/p.173
Burger, Arnold R05‑14/p.136
R14‑5/p.203
NPO1‑47/p.121
N12‑6/p.107
N12‑4/p.107
Buriakov, Michai NPO1‑119/p.126
Burmistrov, Leonid N13‑8/p.108
Burr, Kent M03‑7/p.156
M16‑19/p.228
Busca, Paolo NPO2‑77/p.167
M21‑40/p.243
NPO2‑121/p.170
Butler, A. P.R15‑5/p.226
Butler, P. H.R15‑5/p.226
Butt, Arslan Dawood M21‑40/p.243
NPO2‑77/p.167
NPO2‑121/p.170
Buvat, Irene M18‑50/p.238
J3‑6/p.116
M22‑10/p.246
Buyens, Fanny M22‑30/p.247
M24‑8/p.257
Buytaert, Jan N14‑5/p.109
Buzhan, Pavel N8‑3/p.92
Buzniak, Jan J.N4‑5/p.90
Bykova, Svetlana V.
R05‑17/p.136
Byrd, Darrin M13‑30/p.216
Byrne, Patrick NPO2‑49/p.165
Byun, Byung Hyun M23‑44/p.252
C
Caballero, Luis M11‑6/p.204
Cabello, Jorge M11‑48/p.207
M11‑40/p.207
M11‑44/p.207
M21‑3/p.240
M07‑4/p.198
Cabrera‑Palmer, Belkis N22‑8/p.
Cabruja, Enric R06‑6/p.113
Caccia, Massimo N20‑7/p.146
Cachovan, Michal M17‑33/p.233
Cadatal‑Raduban, Marilou NPO1‑83/p.123
Cadorette, Jules E.
M11‑60/p.208
M11‑59/p.208
Cadoux, Franck NPO2‑69/p.166
N9‑3/p.105
Cafagna, Francesco S.
NPO2‑170/p.174
N31‑4/p.185
Cafaro, Vittorio NPO1‑68/p.122
Caffrey, Augustine J.
N37‑5/p.189
N25‑6/p.150
Cai, Liang M16‑16/p.
J2‑8/p.115
R06‑1/p.113
Cai, Xiao‑Xiao N23‑2/p.148
N45‑2/p.194
NPO1‑201/p.133
NPO1‑221/p.134
Cai, Xudong N33‑1/p.186
Caister, Aaron N15‑7/p.110
Calabrese, Roberto NPO2‑158/p.173
NPO2‑159/p.173
Caldeira, Liliana L.
M12‑49/p.213
M22‑2/p.245
Calderini, Giovanni N13‑2/p.108
Caldwell, Shane A.
N38‑1/p.189
Calestani, Davide R10‑6/p.159
Cal‑Gonzalez, Jacobo M23‑16/p.250
M13‑2/p.214
Callaghan, Paul M13‑12/p.215
Callier, Stephane M16‑43/p.230
J2‑3/p.115
Calvert, Nick N37‑4/p.189
Calvet, Denis NPO2‑180/p.175
Camarda, Giuseppe S.
R05‑28/p.137
R13‑3/p.202
R06‑3/p.113
R05‑41/p.138
R05‑22/p.136
R05‑21/p.136
R10‑4/p.159
R10‑5/p.159
R13‑4/p.202
R09‑4/p.158
R13‑6/p.202
R05‑11/p.136
J4‑3/p.160
R02‑1/p.93
R13‑5/p.202
R09‑3/p.158
R05‑16/p.136
Camarlinghi, Niccolo’ M25‑8/p.258
Cambraia Lopes, Patricia M21‑6/p.240
M19‑2/p.224
M21‑32/p.242
HT3‑7/p.81
Camera, Franco NPO1‑21/p.118
NPO1‑15/p.118
NPO2‑77/p.167
NPO1‑20/p.118
Campana, Riccardo N14‑8/p.109
M21‑45/p.243
Campbell, Desmond L.
M14‑5/p.223
Campbell, Michael RD2‑10/p.83
J4‑1/p.160
R15‑3/p.226
PC1‑2/p.97
RD2‑7/p.83
N14‑5/p.109
Canadell Bofarull, Valenti NPO1‑190/p.132
Canas, Liane S.M12‑49/p.213
Cantwell, Ben J.R05‑44/p.139
R01‑4/p.93
Cao, Chunguang M24‑3/p.257
Cao, Ken M21‑43/p.243
Cao, Liji M18‑20/p.235
M18‑27/p.236
Cao, Meng M17‑23/p.233
Cao, Qing M12‑37/p.212
M12‑35/p.212
Cao, Tuoyu N2‑4/p.88
N33‑6/p.186
M21‑52/p.244
M21‑58/p.244
Capasso, Luciano NPO2‑165/p.174
HT1‑3/p.79
Capeans, Mar N10‑6/p.106
Capodiferro, Manlio N2‑1/p.88
Caponio, Francesco NPO2‑194/p.176
NPO2‑192/p.176
NPO1‑143/p.128
NPO2‑168/p.174
NPO2‑167/p.174
NPO2‑166/p.174
Caragiulo, Pietro N30‑4/p.153
Carare, Roxana M18‑66/p.239
Carbone, Beatrice NPO1‑87/p.124
Cardella, Giuseppe N26‑4/p.150
Cardini, Alessandro NPO1‑108/p.125
Caresana, Marco RD1‑6/p.82
RD1‑7/p.82
RD1‑4/p.82
Carini, Gabriella A.
NPO2‑114/p.170
N14‑4/p.109
NPO2‑110/p.169
N30‑4/p.153
NPO2‑111/p.169
NPO2‑113/p.170
Carlier, Thomas M23‑20/p.250
Carniti, Paolo NPO2‑217/p.177
NPO2‑159/p.173
Carolan, Martin NPO2‑57/p.165
NPO2‑51/p.165
NPO2‑48/p.164
Caroli, Ezio R05‑30/p.137
R05‑50/p.139
Carpinelli, Massimo N19‑2/p.145
HT1‑5/p.79
HT2‑2/p.79
Carraresi, Luca N46‑7/p.195
N43‑5/p.193
N26‑4/p.150
Carrel, Frdrick J3‑6/p.116
Carri, Patrick NPO2‑96/p.168
Carrilero, Vicente M11‑6/p.204
Carrio, Fernando NPO2‑197/p.176
Carson, Richard E.
M04‑6/p.157
M17‑14/p.232
Cartier, Sebastian N46‑3/p.195
Carturan, Sara R05‑39/p.138
Carvalho, Jesiel F.
R05‑13/p.136
Cascella, Michele NPO1‑126/p.127
NPO1‑127/p.127
NPO2‑200/p.176
Casella, Chiara M03‑2/p.156
M11‑45/p.207
Casey, Michael E.
HY1‑3/p.98
M10‑6/p.200
M06‑2/p.197
M04‑2/p.156
M24‑5/p.257
M02‑2/p.155
Casiraghi, Alessandro NPO1‑90/p.124
Casse, Gianluigi N41‑4/p.192
NPO2‑72/p.166
Cassell, Christopher A.
RD1‑4/p.82
Cassese, Antonio N43‑3/p.193
Cassina, Lorenzo NPO2‑71/p.166
Cassol Brunner, Franca M12‑26/p.211
Castello, Roberto N6‑2/p.91
Castiglioni, Isabella M23‑24/p.251
Castilla, Javier NPO2‑208/p.177
M16‑48/p.230
Castoldi, Andrea NPO2‑109/p.169
N43‑5/p.193
N46‑7/p.195
N26‑4/p.150
N46‑6/p.195
Castro, Ismael F.M11‑50/p.208
Castro‑Tirado, Alberto J.
NPO2‑123/p.170
Cates, Josh WNPO1‑46/p.120
Cates, Joshua W.NPO2‑28/p.163
NPO1‑79/p.123
Catherall, David M11‑47/p.207
J1‑1/p.114
Cattadori, Carla NPO2‑182/p.175
Caucci, Luca M21‑61/p.245
Caudevilla, Oriol M12‑19/p.211
Cavicchioli, Costanza N22‑1/p.147
N22‑2/p.147
Cavoto, Gianluca N13‑8/p.108
NPO2‑195/p.176
Cazalas, Edward R11‑4/p.201
N34‑5/p.187
Cecchetti, Matteo M25‑8/p.258
Cecilia, Angelica N12‑4/p.107
NPO1‑45/p.120
Cela, Jose Manuel NPO2‑208/p.177
M16‑48/p.230
Celani, Andrea M21‑2/p.240
HT2‑6/p.80
Celler, Anna M16‑29/p.229
M13‑31/p.216
Cencelli, Valentino M21‑65/p.245
Cenci, Patrizia N43‑3/p.193
Censor, Yair HT4‑1/p.81
Cerioni, Stefano N2‑1/p.88
Ceruti, Simone NPO1‑15/p.118
NPO1‑21/p.118
Cerutti, Francesco M21‑24/p.242
Cha, Bo Kyung M12‑2/p.210
NPO1‑160/p.129
Cha, Bokyung R05‑6/p.135
Cha, Sung Su NPO2‑7/p.161
NPO2‑4/p.161
NPO2‑5/p.161
NPO2‑6/p.161
Chabior, Michael M12‑21/p.211
M20‑6/p.225
Chai, Jong‑Seo NPO2‑69/p.166
NPO2‑5/p.161
R05‑15/p.136
NPO1‑179/p.131
Chai, Junying N9‑3/p.105
Chai, Pei M11‑5/p.204
Chaiwongkhot, Kullapha N2‑2/p.88
Chalmet, Pierre Laurent N22‑2/p.147
Chaminade, Thomas N44‑7/p.194
Champion, Christophe M23‑7/p.249
Chan, Chung M10‑7/p.200
M18‑1/p.234
M11‑49/p.208
Chan, Trevor R09‑3/p.158
R05‑22/p.136
Chandra, Rico N20‑5/p.146
N15‑2/p.110
N20‑8/p.146
RD1‑10/p.82
N20‑7/p.146
N39‑4/p.190
Chang, Chen‑Ming M16‑53/p.230
Chang, Chu‑En NPO2‑98/p.168
Chang, Jen M21‑21/p.241
Chang, Liu NPO2‑109/p.169
N43‑5/p.193
Chang, Ming NPO2‑174/p.174
Chang, Wei M13‑14/p.215
M16‑4/p.227
Chang, Yen‑Yung NPO1‑62/p.122
Chang, Yongjin M17‑35/p.233
M18‑49/p.238
M18‑3/p.234
Chang, Yu‑Bing M21‑68/p.245
M09‑7/p.200
Chapman, Dean NPO2‑107/p.169
M12‑6/p.210
Chappelet, Philippe NPO1‑69/p.122
Charbon, Edoardo NPO1‑96/p.124
N22‑5/p.147
M02‑3/p.155
M11‑23/p.205
N8‑4/p.92
Charest, Jonathan M11‑59/p.208
Charles, Evan NPO2‑34/p.163
Charon, Yves M11‑34/p.206
M09‑8/p.200
M16‑43/p.230
Chartier, Lachlan M21‑35/p.243
Chartrand, Rick M15‑1/p.223
Chastellain, Frderic NPO1‑182/p.131
Chateau, Frederic N44‑7/p.194
N1‑5/p.88
Chatziioannou, Arion F.
M05‑6/p.196
M09‑3/p.199
M11‑33/p.206
M19‑1/p.224
Chaudhuri, Sandeep K.
R11‑2/p.201
R05‑14/p.136
Chauveau, Jacques N13‑2/p.108
Chayahara, Akiyoshi NPO2‑104/p.169
Chen, Buxin M22‑32/p.247
M22‑33/p.247
Chen, Cai N7‑1/p.91
N23‑8/p.148
Chen, Cheng‑Wei NPO1‑62/p.122
Chen, Chia H.M21‑33/p.242
Chen, Chien H.M21‑33/p.242
Chen, Ching Y.M21‑33/p.242
Chen, Chin‑Tu M09‑2/p.199
M22‑16/p.246
NPO1‑87/p.124
M04‑7/p.157
J2‑8/p.115
M16‑56/p.231
Chen, Henry R10‑2/p.158
NPO2‑126/p.171
Chen, Huangshan J1‑4/p.114
Chen, Jen K.M21‑33/p.242
Chen, Junfeng NPO1‑32/p.119
Chen, Jyh‑Cheng M17‑26/p.233
Chen, Lidong NPO1‑32/p.119
Chen, Lihong NPO2‑26/p.163
Chen, Long M17‑7/p.231
Chen, Pisin NPO1‑62/p.122
NPO2‑123/p.170
Chen, Qinghao N20‑6/p.146
Chen, Shi M17‑11/p.232
Chen, Shin‑Yu NPO2‑8/p.161
Chen, Si N11‑4/p.107
M11‑52/p.208
M12‑1/p.209
Chen, Sih Y.M21‑33/p.242
Chen, Supin M05‑6/p.196
Chen, Wei M18‑46/p.238
NPO2‑214/p.177
N26‑3/p.150
NPO1‑12/p.118
Chen, Wufan M12‑30/p.212
M11‑42/p.207
M17‑12/p.232
Chen, Yang M12‑35/p.212
M12‑37/p.212
Chen, Yi‑Chun M11‑38/p.207
M13‑18/p.215
Chen, Yong P.N34‑5/p.187
R11‑4/p.201
Chen, Yu N40‑4/p.191
Chen, Yuanbo NPO1‑117/p.126
Chen, Zhiqiang M13‑26/p.216
NPO2‑174/p.174
M17‑22/p.233
M20‑4/p.225
M11‑64/p.209
M13‑28/p.216
Chen, Zongde NPO1‑91/p.124
Cheng, Jianping NPO2‑29/p.163
N20‑6/p.146
NPO2‑32/p.163
NPO1‑114/p.126
N15‑6/p.110
Cheng, Ju‑Chieh (Kevin) M18‑14/p.235
Cheng, Lishui M17‑5/p.231
Cheng, Xiaolei NPO2‑205/p.177
Cheon, Munseong NPO2‑10/p.161
Cherepy, Nerine N12‑6/p.107
N12‑4/p.107
Cherepy, Nerine J.
N4‑1/p.89
Cherlin, Alexander R01‑6/p.93
R15‑5/p.226
Cherry, Simon R.
M16‑8/p.227
M16‑1/p.227
M03‑1/p.156
M17‑40/p.234
M05‑1/p.196
M16‑7/p.227
M21‑50/p.244
J1‑2/p.114
MRF4‑1/p.
M09‑1/p.199
Chesi, Enrico J1‑3/p.114
Chichester, David L.
NPO2‑9/p.161
Childres, Isaac R11‑4/p.201
N34‑5/p.187
Chin, Mary P.M21‑24/p.242
Chin, Myung Heon M21‑64/p.245
Chiu, Mickey N26‑6/p.151
Chiu, Yun NPO2‑179/p.175
Chivers, Daniel H
J4‑5/p.160
NPO2‑53/p.165
N25‑8/p.150
Chmeissani, Mokhtar J3‑7/p.116
R06‑6/p.113
Chmill, Valery N20‑7/p.146
Cho, Byungchul M21‑10/p.241
Cho, Gyu‑Seok R05‑7/p.135
R05‑9/p.135
Cho, Gyuseong NPO1‑163/p.130
NPO1‑111/p.126
NPO1‑225/p.134
NPO1‑161/p.129
NPO1‑140/p.128
NPO2‑213/p.177
NPO1‑18/p.118
NPO1‑139/p.128
NPO1‑191/p.132
Cho, Hyo Min J3‑5/p.116
Cho, Jang Hwan M22‑31/p.247
M22‑36/p.248
Cho, Jongmin M21‑4/p.240
Cho, Minsik NPO1‑139/p.128
NPO1‑140/p.128
NPO1‑163/p.130
NPO1‑161/p.129
NPO2‑213/p.177
NPO1‑137/p.128
NPO1‑111/p.126
Cho, Moohyun R05‑37/p.138
Cho, Sang Hyun M11‑66/p.209
Cho, Sanghee NPO1‑103/p.125
Cho, Sang‑Jin NPO1‑212/p.133
Cho, Seungryong M21‑18/p.241
M12‑38/p.212
M20‑8/p.225
M07‑5/p.198
M22‑39/p.248
M21‑23/p.242
Cho, Steve R06‑3/p.113
Cho, Sungkoo M21‑14/p.241
M07‑5/p.198
Cho, Yong Gyun R05‑46/p.139
Choe, Bo‑Young MRF2‑1/p.
Choe, Hyeok‑Jun M16‑45/p.230
M11‑9/p.204
M12‑40/p.212
Choi, Gwan NPO2‑189/p.175
Choi, H.D. NPO2‑74/p.167
Choi, Hyo Jeong R05‑5/p.135
R05‑15/p.136
Choi, Inseok NPO1‑138/p.128
Choi, Jae‑Gu M12‑7/p.210
Choi, Jang Hwan M05‑8/p.196
Choi, Ji Nyeong NPO2‑125/p.171
Choi, Jiyoung M12‑14/p.210
Choi, Kwang Yong NPO2‑86/p.168
Choi, Seung Joon M23‑34/p.251
Choi, Seungtaek RD2‑1/p.83
Choi, Yong M13‑5/p.214
M12‑40/p.212
M16‑55/p.231
M11‑9/p.204
M16‑35/p.229
M13‑10/p.215
M16‑41/p.229
M12‑46/p.213
M16‑45/p.230
Choi, Young‑Wook M12‑7/p.210
Choi, Yu‑Na M23‑23/p.251
M23‑25/p.251
Chollet, Matthieu NPO2‑111/p.169
Chong, Liu N21‑7/p.147
N40‑1/p.191
Choong, Woon‑Seng MRF3‑1/p.
M03‑1/p.156
M11‑1/p.204
M09‑2/p.199
Chou, Cheng‑Ying M04‑7/p.157
M22‑16/p.246
Chou, Hung‑Yi M22‑16/p.246
Chou, Hwai‑Pwu NPO2‑8/p.161
NPO2‑172/p.174
Chourasiya, Ghanshyam NPO2‑153/p.173
Chow, Andi NPO2‑112/p.170
Christensen, Finn E.
NPO2‑13/p.162
Christine, Toumoulin M12‑35/p.212
M12‑37/p.212
Christodoulides, Joseph A.
N1‑3/p.87
Christophersen, Marc N1‑3/p.87
Chrzaszcz, Marcin J.
NPO2‑149/p.172
Chu, Jiyang M20‑4/p.225
Chun, Se Young M18‑48/p.238
M17‑34/p.233
Chung, Chan Hoon N31‑1/p.185
Chung, Heejun N38‑3/p.190
Chung, Kiwhan N7‑4/p.92
NPO1‑115/p.126
Chung, Yong Hyun M21‑1/p.240
M11‑29/p.206
NPO2‑24/p.162
M13‑5/p.214
M16‑50/p.230
Churilov, Alexei R04‑1/p.95
Ciambrone, Paolo N2‑1/p.88
Ciampi, Guido R04‑1/p.95
Ciaranfi, Roberto N43‑3/p.193
Ciarrocchi, Esther M03‑4/p.156
M22‑47/p.248
Cibinetto, Gianluigi NPO2‑158/p.173
Ciciriello, Fabio NPO2‑219/p.177
J1‑3/p.114
Ciemała, Michal NPO1‑21/p.118
Cinausero, Marco R05‑39/p.138
Cindro, Vladimir M11‑41/p.207
Cinti, Maria Nerina NPO2‑232/p.178
M16‑20/p.228
M16‑18/p.228
N43‑8/p.193
Ciocca, Mario HT1‑3/p.79
Cirignano, Leonard R04‑1/p.95
R05‑26/p.137
R14‑4/p.203
Cirio, Roberto HT1‑3/p.79
Cirrone, Pablo G.
HT1‑5/p.79
Citterio, Mauro NPO2‑184/p.175
Civinini, Carlo N19‑2/p.145
HT2‑2/p.79
Clajus, Martin R01‑6/p.93
R01‑7/p.93
Clark, Jason A.N38‑1/p.189
Clark, Jr., John W.
M21‑26/p.242
Clarke, Shaun N20‑3/p.146
Clarkson, Anthony NPO1‑22/p.119
Clarkson, Eric W
M21‑61/p.245
Claus, Gilles NPO1‑9/p.117
Claus, Liam N3‑2/p.89
Claus, Piet M18‑53/p.238
Clauss, Jean NPO1‑183/p.131
Cleary, Kevin M05‑4/p.196
Clemens, Jean‑Claude NPO1‑6/p.117
Clemens, Uwe NPO1‑202/p.133
Clementel, Enrico HT2‑6/p.80
M19‑2/p.224
M21‑2/p.240
Clements, Natalie RD2‑5/p.83
Clemenza, Massimiliano NPO1‑181/p.131
Clemett, Ceri NPO2‑41/p.164
N37‑2/p.189
Clergeau, Jean‑Francois N23‑7/p.148
NPO1‑213/p.134
Clinthorne, Neal H.
NPO2‑53/p.165
M11‑41/p.207
Clinton, Justin NPO2‑35/p.163
Clyne, M.R15‑5/p.226
Cocks, James N38‑4/p.190
Coelli, Simone NPO1‑20/p.118
Cohen, Yosef NPO2‑36/p.164
Cola, Adriano R03‑1/p.94
Colaresi, Jim N38‑4/p.190
Colarieti‑Tosti, Massimiliano NPO1‑30/p.119
Collamati, Francesco M21‑67/p.245
Collazuol, Gianmaria R05‑39/p.138
N43‑3/p.193
Collet, Matthieu NPO2‑113/p.170
Collu, Alberto N22‑1/p.147
Combet, Michel NPO1‑61/p.122
Combo, A. M11‑50/p.208
Combs, Stephanie M21‑12/p.241
HT3‑4/p.81
Comerma, Albert M16‑48/p.230
NPO2‑208/p.177
Commichau, Volker R05‑48/p.139
Commisso, Robert J.
NPO2‑41/p.164
Conant, Shielah M18‑12/p.235
Conceição, André L.
M12‑12/p.210
Conceicao, Raquel C.
M12‑49/p.213
Conde, Pablo M17‑20/p.232
M16‑40/p.229
NPO2‑76/p.167
NPO2‑73/p.167
M22‑7/p.246
M11‑27/p.206
Conde, Pablo E.M11‑6/p.204
Conforti Di Lorenzo, Selma N13‑8/p.108
Cong, Wenxiang M20‑4/p.225
Conti, Elia NPO1‑167/p.130
Conti, Maurizio M07‑3/p.198
Conti, Peter SM23‑2/p.249
Conway, Adam R04‑3/p.95
Cook, Gary M22‑4/p.246
Cootes, Tim F.M18‑39/p.237
Cordier, Bertrand N1‑5/p.88
Corracher, Carlos M22‑7/p.246
Correa, Jonathan N23‑7/p.148
NPO1‑213/p.134
Correia, John A.M21‑21/p.241
Corsi, Francesco NPO2‑219/p.177
J1‑3/p.114
Cortial, Marin N1‑5/p.88
Corvo, Marco N44‑1/p.194
Cotta Ramusino, Angelo NPO2‑159/p.173
NPO2‑217/p.177
NPO2‑158/p.173
Coupland, Daniel D.
N36‑2/p.188
NPO1‑75/p.123
Cousins, Thomas J.
NPO2‑34/p.163
Coutrakon, George HT1‑1/p.79
HT4‑1/p.81
Cowsik, Ramanath N9‑6/p.105
Cox, Christopher E.
N24‑1/p.149
Crane, Christopher H.
M21‑7/p.240
Cremonesi, Marta M21‑67/p.245
Crespo, Efren NPO2‑76/p.167
M22‑7/p.246
NPO2‑73/p.167
M11‑6/p.204
M17‑20/p.232
M11‑27/p.206
Crespo, Paulo M11‑61/p.208
M21‑27/p.242
M21‑6/p.240
M19‑2/p.224
NPO1‑134/p.127
HT3‑7/p.81
NPO1‑17/p.118
Cresswell, John R.
N38‑4/p.190
Crocco, Jerome R09‑2/p.158
Crochemore, Jean‑Michel NPO1‑190/p.132
Cromaz, Mario N26‑8/p.151
Cronholm, L. Marie N39‑2/p.190
Crook, Robert N30‑7/p.154
Crosetto, Dario B.
R05‑52/p.139
Crowell, Alex NPO2‑54/p.165
Cruz De La Torre, Carlos NPO1‑69/p.122
Cruz Sanchez, Vianey G.
M17‑9/p.232
Cuccaro, Sylvain N23‑7/p.148
Cui, Jingyu M22‑23/p.247
Cui, Ke NPO2‑207/p.177
Cui, Song M03‑6/p.156
Cui, Xing Z.NPO2‑117/p.170
Cui, Yonggang J4‑3/p.160
R05‑11/p.136
R13‑4/p.202
R05‑22/p.136
R13‑5/p.202
R09‑3/p.158
R05‑21/p.136
R05‑41/p.138
R13‑3/p.202
R02‑1/p.93
R05‑28/p.137
R06‑3/p.113
R10‑4/p.159
R05‑16/p.136
Cuisy, Dominique M16‑43/p.230
Cullen, Ashley NPO2‑51/p.165
NPO2‑48/p.164
Cumberbatch, Larry NPO2‑54/p.165
Cunningham, Ian A.
M13‑25/p.216
Curado Da Silva, Rui M.
R05‑50/p.139
R05‑30/p.137
Curatolo, Maria NPO2‑88/p.168
Curioni, Alessandro N20‑5/p.146
N20‑8/p.146
Curtis, Joseph C.N25‑8/p.150
Cusimano, Alberto NPO2‑167/p.174
NPO2‑168/p.174
NPO2‑166/p.174
Cussans, David G.
N45‑4/p.194
N10‑5/p.106
Cutajar, Dean NPO2‑56/p.165
NPO2‑55/p.165
Cutmore, Nick NPO2‑19/p.162
Cuttone, Giacomo N19‑2/p.145
HT2‑2/p.79
HT1‑5/p.79
Czerwinski, Eryk N2‑1/p.88
Czeszumska, Agnieszka N38‑1/p.189
D
Dabbs, Ben NPO2‑31/p.163
Dacenko, Oleksandr I.
R05‑23/p.137
Dafinei, Ioan NPO2‑63/p.166
Dahlbom, Magnus M23‑2/p.249
M11‑12/p.205
M17‑10/p.232
Dai, Changhong M22‑23/p.247
Dai, Tiantian M18‑43/p.237
M17‑36/p.234
M18‑45/p.237
d’Aillon, Eric G.M02‑3/p.155
Daito, Izuru NPO1‑72/p.122
NPO2‑30/p.163
NPO2‑27/p.163
Dakovski, Georgi L.
NPO2‑111/p.169
Dalla Betta, Gian‑Franco R05‑39/p.138
N41‑1/p.192
Dalla Palma, Matteo R05‑39/p.138
Dallmann, Nicholas N36‑2/p.188
Daly, Francois N44‑7/p.194
Damazio, Denis O.
N43‑4/p.193
NPO2‑147/p.172
NPO2‑155/p.173
NPO2‑198/p.176
N44‑4/p.194
N6‑4/p.91
NPO2‑181/p.175
NPO2‑144/p.172
NPO1‑156/p.129
N44‑3/p.194
NPO2‑199/p.176
Dambacher, Markus R01‑3/p.93
R01‑8/p.93
R15‑2/p.226
N12‑4/p.107
D’Ambrosio, Carmelo N43‑2/p.193
Damet, Jerome RD2‑7/p.83
Damron, Elena V.
N22‑4/p.147
Danagoulian, Areg N37‑1/p.189
D’Andrea, Valerio NPO2‑182/p.175
D’Angelo, Giovanni NPO1‑223/p.134
Daniele, Margarone HT1‑5/p.79
Danielsson, Hans N2‑3/p.88
Danielyan, Varuzhan N40‑8/p.191
N44‑5/p.194
Darambara, Dimitra G.
M13‑19/p.215
Das, Prajnan M21‑7/p.240
Dasari, Paul M18‑8/p.235
Dastageer, M. NPO2‑1/p.161
NPO2‑62/p.166
Dauvergne, Denis HT2‑7/p.80
Davatz, Giovanna N20‑5/p.146
RD1‑10/p.82
N20‑7/p.146
N20‑8/p.146
N39‑4/p.190
Dave, Shivang R.M13‑2/p.214
M16‑26/p.228
M18‑44/p.237
M03‑5/p.156
Davenport, Stephen NPO1‑217/p.134
Davia, Cinzia N28‑8/p.152
David, Mcdnaiel L.
M16‑25/p.228
David, Stratos NPO2‑163/p.174
M21‑48/p.244
Davis, Andrew M
M22‑8/p.246
Dawood, Mohammad M18‑37/p.237
M06‑5/p.197
Day, Peter K.N26‑2/p.150
Dazeley, Steven A.
N15‑3/p.110
N13‑7/p.108
de Asmundis, Riccardo NPO1‑112/p.126
de Beer, Frikkie N39‑8/p.191
De Donato, Cinzia NPO2‑158/p.173
de Gaspari, Massimiliano N14‑5/p.109
De Gerone, Matteo NPO1‑42/p.120
De Geronimo, Gianluigi N30‑8/p.154
N9‑6/p.105
R02‑5/p.94
J4‑3/p.160
R02‑1/p.93
de Groen, Piet C.
M18‑62/p.239
De Guio, Federico NPO2‑146/p.172
de La Taille, Christophe J2‑3/p.115
De Lentdecker, Gilles NPO2‑169/p.174
De Lorenzo, Gianluca J3‑7/p.116
R06‑6/p.113
De Man, Bruno M17‑6/p.231
M12‑27/p.211
M06‑7/p.197
de Nijs, Robin M18‑29/p.236
de Notaristefani, Francesco N43‑8/p.193
M16‑18/p.228
NPO2‑232/p.178
M16‑20/p.228
De Robertis, Giuseppe N2‑1/p.88
De Rosa, Gianfranca NPO1‑112/p.126
De Santis, Cristian NPO2‑149/p.172
De Simone, Nicola N44‑6/p.194
N17‑3/p.111
de Sio, Antonio RD2‑3/p.83
N19‑3/p.145
Deacon, Alick N.
N37‑4/p.189
Debu, Pascal NPO1‑61/p.122
Debus, Juergen M21‑12/p.241
HT3‑4/p.81
Decker, Todd A.N25‑7/p.150
DeCrescenzo, Giovanni M21‑42/p.243
R11‑6/p.201
Dedeurwaerdere, Stefanie M23‑39/p.252
Dedic, Vaclav R05‑28/p.137
R05‑22/p.136
R10‑4/p.159
R13‑5/p.202
R09‑3/p.158
R03‑3/p.94
Defendi, Ilario NPO1‑196/p.132
Defrise, Michel M04‑2/p.156
M17‑16/p.232
Degenhardt, Carsten M16‑46/p.230
Degerli, Yavuz NPO1‑9/p.117
Deibel, C. M.N38‑1/p.189
Dejoie, Catherine N46‑4/p.195
Dejonge, Martin D.
NPO2‑112/p.170
Dejongh, Fritz HT1‑1/p.79
del Guerra, Alberto M22‑47/p.248
J1‑3/p.114
M03‑4/p.156
HT3‑1/p.80
M21‑29/p.242
M25‑8/p.258
J2‑2/p.115
Del Sordo, Stefano R05‑30/p.137
R05‑50/p.139
Delclos, Marc E.M21‑7/p.240
Deledda, Stefano NPO1‑221/p.134
Deleye, Steven M23‑39/p.252
M11‑56/p.208
Deller, Timothy M12‑44/p.213
Delso, Gaspar M18‑54/p.238
M12‑49/p.213
M12‑50/p.213
Dendooven, Peter HT3‑7/p.81
M21‑6/p.240
HT3‑3/p.80
M21‑32/p.242
Deng, Binwei N17‑5/p.111
Deng, Li N11‑7/p.107
N21‑7/p.147
Deng, Zhenzhou M16‑34/p.229
NPO2‑171/p.174
Deng, Zhi N40‑4/p.191
NPO1‑199/p.132
R05‑41/p.138
N15‑6/p.110
Deprez, Karel M14‑7/p.223
Deptuch, Grzegorz W.
N14‑3/p.109
N14‑4/p.109
Der Sarkissian, Henri M13‑13/p.215
Derenzo, Stephen E.
N4‑7/p.90
NPO2‑81/p.167
NPO1‑77/p.123
d’Errico, Francesco N7‑7/p.92
Dervan, Paul N41‑4/p.192
Desai, Shraddha N23‑7/p.148
Desaulniers Lamy, Etienne J1‑5/p.114
Descalle, Marie‑Anne N25‑7/p.150
NPO2‑13/p.162
Desch, Klaus N14‑5/p.109
Desco, Manuel M23‑16/p.250
Desforge, Daniel NPO1‑61/p.122
Desorgher, Laurent M.
NPO1‑182/p.131
Destefano, Nicholas N3‑7/p.89
Deuerling‑Zheng, Yu M18‑51/p.238
Dewaraja, Yuni M18‑48/p.238
Dey, Amrita NPO2‑153/p.173
Dey, Biplab NPO1‑157/p.129
Dey, Samrat M09‑5/p.200
Deych, Ruvin N3‑1/p.89
Dhibar, Monalisha N28‑5/p.152
NPO1‑63/p.122
Di Cicco, Alessandro N2‑1/p.88
Di Domenico, Antonio N2‑1/p.88
Di Fulvio, Angela N7‑7/p.92
Di, Kun M09‑1/p.199
M05‑1/p.196
J1‑2/p.114
Diaz, Oliver M13‑23/p.216
Diblen, Faruk M21‑32/p.242
Dieguez, Ernesto R09‑2/p.158
Dierckx, Rudi A.M18‑58/p.238
Dikaios, Nikolaos M17‑24/p.233
M23‑35/p.251
Dimitre, Tomov J1‑1/p.114
Dimitrova, Ivelina S.
NPO1‑180/p.131
Dinapoli, Roberto N30‑1/p.153
N46‑3/p.195
N14‑7/p.109
Dinaucourt, Pierrick M16‑43/p.230
Ding, Huanjun J3‑5/p.116
Dinius, Arend N27‑8/p.151
Dinu, Nicoleta M16‑43/p.230
M09‑8/p.200
Dion, Michael P.N45‑3/p.194
N38‑6/p.190
Dione, Donald M18‑1/p.234
Dioszegi, Istvan N11‑1/p.106
Disch, Christian R15‑2/p.226
R01‑3/p.93
R01‑8/p.93
R05‑20/p.136
D’Isidoro, Fabio M12‑20/p.211
Divoli, Antigoni M15‑8/p.224
Diyuan, Ren NPO2‑160/p.173
do Carmo, S. J.NPO1‑134/p.127
Doan, Tri M15‑7/p.224
Dobbe, J GM24‑8/p.257
Doerfler, Arnd M13‑33/p.216
M18‑51/p.238
Doke, Tadayoshi N28‑7/p.152
Dolinsky, Sergei N34‑7/p.187
N24‑6/p.149
NPO2‑231/p.178
NPO1‑100/p.125
Domenici, Danilo N2‑1/p.88
Donai, Takanori M11‑22/p.205
Donath, Tilman R03‑4/p.94
Donati, Modeste N44‑7/p.194
Donetti, Marco HT1‑3/p.79
Dong, Jing N2‑1/p.88
Dong, Su NPO2‑99/p.168
Dong, Yi F.NPO2‑69/p.166
NPO2‑117/p.170
Dong, Yinfeng M22‑3/p.245
Dong, Yongwei N9‑3/p.105
Donnald, Samuel B.
NPO1‑46/p.120
Donovan, Ellen M21‑30/p.242
Donvito, Giacinto NPO2‑149/p.172
Dooraghi, Alex A.
M05‑6/p.196
Doornenbal, Pieter NPO1‑59/p.121
Dorman, Eric FM21‑29/p.242
Dormand, Jamie NPO1‑136/p.128
Dorn, Markus NPO2‑229/p.178
Dorogov, Petr R05‑25/p.137
Dorokhov, Andrei NPO1‑9/p.117
Dorosz, Piotr M16‑47/p.230
NPO2‑75/p.167
Doroud, Katayoun J1‑6/p.114
M11‑4/p.204
Dose, Thomas NPO2‑47/p.164
Dotti, Andrea N18‑4/p.112
Doty, F. Patrick N4‑3/p.90
Dowdy, Ariel S.R13‑6/p.202
Dowkonnt, Paul N9‑6/p.105
Dppenbecker, Peter M.
M11‑32/p.206
Drabo, Mebougna L.
R10‑5/p.159
R13‑6/p.202
Dragone, Angelo NPO2‑114/p.170
N30‑4/p.153
NPO2‑113/p.170
NPO2‑110/p.169
Dressendorfer, Paul V.
N6‑8/p.91
Dreyer, Anne M19‑3/p.224
Drochner, Matthias NPO2‑176/p.175
Drouin, Pierre‑Luc NPO2‑34/p.163
Du, Dong M11‑14/p.205
M16‑30/p.229
Du, Huini M03‑7/p.156
M16‑19/p.228
Du, Junwei M16‑8/p.227
M09‑1/p.199
J1‑2/p.114
Du, Mao‑Hua R11‑7/p.201
Du, Qian NPO2‑38/p.164
Du, Yingshuai N20‑6/p.146
Du, Yong NPO1‑32/p.119
M22‑3/p.245
M13‑16/p.215
M06‑4/p.197
M16‑31/p.229
Duarte, Olivier NPO2‑191/p.176
Dubeau, J.NPO1‑192/p.132
Dubrawski, Artur NPO2‑22/p.162
N11‑6/p.107
Duchene, Gilbert NPO2‑65/p.166
Dueppenbecker, Peter M.
J2‑7/p.115
M12‑42/p.212
Dughie, Erin M.N26‑7/p.151
Dujardin, Christophe NPO1‑69/p.122
Duk, Viacheslav N43‑3/p.193
Dulinski, Wojciech NPO1‑2/p.117
NPO1‑194/p.132
NPO1‑9/p.117
Dulucq, Frederic J2‑3/p.115
Dunn, Joel M18‑17/p.235
Dupont, Bertrand M09‑4/p.199
Dupont, Mathieu M12‑26/p.211
Dupont, Patrick M08‑2/p.198
Durrant, Ray R06‑1/p.113
Durst, Juergen M12‑8/p.210
Dussoni, Simeone NPO1‑141/p.128
N13‑4/p.108
Duval, Marie‑Alix M11‑34/p.206
M16‑43/p.230
M09‑8/p.200
Dzahini, Daniel NPO2‑227/p.178
E
Eappen, Karumpil P.
NPO1‑176/p.131
NPO1‑177/p.131
East, Steve M02‑3/p.155
Eberhardt, John NPO2‑19/p.162
Ebine, Masumi NPO1‑211/p.133
Ebrahimibasabi, Ehsan N27‑2/p.151
Edelstein, William M12‑55/p.214
Edwards, Blair N3‑7/p.89
Efthimiou, Nikos NPO2‑163/p.174
M16‑28/p.229
Egarievwe, Alexander A.
R10‑5/p.159
R13‑6/p.202
Egarievwe, Stephen U.
R10‑5/p.159
R13‑6/p.202
Eger, John R06‑2/p.113
Egger, Ann E.N25‑6/p.150
Egli, Ken NPO1‑166/p.130
Ehn, Sebastian M21‑60/p.244
M12‑21/p.211
M23‑13/p.250
Ekjeen, Tawatchai M23‑18/p.250
El Bitar, Ziad M11‑63/p.209
M12‑24/p.211
El Fakhri, Georges M05‑3/p.196
HY2‑3/p.98
M21‑21/p.241
M17‑1/p.231
Elandoy, Christel RD2‑7/p.83
Elangovan, Premkumar M13‑23/p.216
M21‑30/p.242
Elhadidy, Hassan R03‑3/p.94
Ellis, Mark N20‑1/p.146
Elsalim, Mashal NPO2‑21/p.162
El‑Sharkawy, Abdelmonem M12‑55/p.214
Elston, Brian F.M13‑30/p.216
Ely, James R.N39‑1/p.190
Emerick, Aaron R15‑6/p.226
R06‑2/p.113
R13‑7/p.202
Emery, Robert M21‑29/p.242
Enchi, Yukihiro M22‑43/p.248
Endo, Takanori M21‑51/p.244
N4‑8/p.90
Endres, Juergen M08‑5/p.199
Engels, Ralf NPO1‑202/p.133
Enghardt, Wolfgang NPO2‑64/p.166
M19‑3/p.224
Enomoto, Shuichi N28‑6/p.152
NPO2‑186/p.175
Enquobahrie, Andinet M05‑4/p.196
Enshaeifar, Shirin M13‑23/p.216
En’Yo, Hideto NPO1‑120/p.126
Eom, Kidong M18‑19/p.235
Eom, Sangheum M21‑44/p.243
M21‑54/p.244
M21‑53/p.244
Epple, Eliane N16‑3/p.110
Epple, Franz M.M12‑21/p.211
M21‑60/p.244
M23‑13/p.250
Epple, Michael N30‑5/p.153
Erdei, Gabor M11‑31/p.206
M02‑3/p.155
Erdinger, Florian NPO2‑105/p.169
Erdogan, Ahmet M02‑3/p.155
Eriksson, Lars M07‑3/p.198
NPO1‑46/p.120
Erlandson, Andrew NPO2‑34/p.163
Erlandsson, Kjell M15‑8/p.224
M17‑15/p.232
M12‑56/p.214
M18‑21/p.236
Errmann, Gerlad N37‑3/p.189
Ertosun, Mehmet G
J3‑2/p.115
Erven, Andreas M11‑28/p.206
M16‑46/p.230
NPO2‑176/p.175
Erven, Wilhelm NPO2‑176/p.175
Espana, Samuel M13‑1/p.214
M14‑7/p.223
M16‑13/p.228
M21‑39/p.243
Espinoza, Anthony A.
NPO2‑57/p.165
NPO2‑51/p.165
NPO2‑48/p.164
Esposito, Giuseppe M05‑4/p.196
Esquinas, Pedro L.
M13‑31/p.216
Esteve, Francois NPO2‑106/p.169
Etxebeste, Ane M11‑44/p.207
Evangelista, Yuri M21‑45/p.243
N14‑8/p.109
Evans, Fraser N3‑6/p.89
Evans, Lyndon Rees NP1‑1/p.87
Evans, M.NPO1‑192/p.132
F
Fabbietti, Laura N16‑3/p.110
Fabbri, Andrea M11‑55/p.208
NPO2‑232/p.178
M21‑65/p.245
M16‑20/p.228
M16‑18/p.228
N43‑8/p.193
Fabbri, Fabrizio NPO1‑68/p.122
Fabbri, Riccardo NPO1‑202/p.133
Fabris, Lorenzo N25‑1/p.149
N36‑7/p.188
NPO2‑31/p.163
Facchinetti, Stefano N46‑5/p.195
Faccini, Riccardo M21‑67/p.245
Fadeyev, Vitaliy A
N34‑2/p.187
Faghihi, Reza RD2‑11/p.83
Fahrig, Rebecca M18‑18/p.235
M05‑8/p.196
Fajardo, Pablo NPO1‑69/p.122
Falcon, Carles M18‑21/p.236
Fallica, Giorgio NPO1‑87/p.124
NPO1‑90/p.124
Fan, Peng M13‑3/p.214
M18‑45/p.237
Fan, Rui R.NPO2‑117/p.170
Fan, Xingming NPO1‑114/p.126
N15‑6/p.110
NPO2‑32/p.163
Fan, Yi M17‑37/p.234
Fang, Xiaochao N14‑5/p.109
Fanizzi, Giampiero N2‑1/p.88
Fanti, Viviana NPO1‑108/p.125
Farella, Isabella R03‑1/p.94
Farrell, Richard M05‑1/p.196
Farsoni, Abi NPO2‑16/p.162
Fauler, Alex R15‑2/p.226
R13‑5/p.202
R01‑3/p.93
N12‑4/p.107
J3‑3/p.115
Favalli, Andrea D.
N7‑4/p.92
Faverzani, Marco N26‑2/p.150
Favre, Yannick N14‑8/p.109
Fawad, U. N12‑8/p.108
Fayad, Hadi M10‑5/p.200
Fazio, Federico M23‑24/p.251
Fazzi, Alberto HT3‑10/p.81
NPO1‑223/p.134
NPO1‑90/p.124
Federici, Luca N17‑3/p.111
N44‑6/p.194
Fedorov, Andrei N32‑4/p.186
Feghhi, Seyed Amir Hossein N27‑2/p.151
N27‑7/p.151
Felici, Giulietto N2‑1/p.88
Fella, Armando NPO2‑148/p.172
NPO2‑149/p.172
Feller, W. Bruce N39‑8/p.191
Feng, Bing M22‑12/p.246
Feng, Jun M22‑40/p.248
Feng, Liangyuan N22‑4/p.147
Feng, Shengqin NPO1‑119/p.126
Feng, Tao R13‑2/p.202
M08‑3/p.199
M18‑6/p.234
M10‑4/p.200
M11‑53/p.208
M23‑21/p.250
Feng, Xiqi NPO1‑13/p.118
Fernandez, Begona NPO2‑73/p.167
NPO2‑76/p.167
Fernandez, Philippe M23‑36/p.251
M23‑29/p.251
Fernandez‑Perea, Monica N25‑7/p.150
Fernandez‑Varea, Jose Maria M16‑48/p.230
NPO2‑208/p.177
Feroci, Marco N14‑8/p.109
M21‑45/p.243
Ferrand, Gilles J3‑6/p.116
Ferrando, Philippe R05‑50/p.139
Ferrari, Alfredo M21‑24/p.242
Ferrarini, Michele RD1‑7/p.82
RD1‑4/p.82
Ferraton, Mathieu N23‑7/p.148
NPO1‑213/p.134
Ferreira Marques, M. F.
M11‑61/p.208
Ferreira Marques, Rui M11‑61/p.208
NPO1‑134/p.127
Ferreira, Claudia S.
M18‑20/p.235
M18‑27/p.236
Ferreira, Miguel A.
M11‑50/p.208
Ferreira, Rodrigo M11‑50/p.208
Ferrer, Ludovic M13‑13/p.215
M23‑20/p.250
Ferretti, Stefano M25‑8/p.258
Ferri, Alessandro M14‑2/p.223
M21‑36/p.243
N8‑1/p.92
J1‑7/p.114
Ferri, Elena N26‑2/p.150
Ferroli, Paolo M21‑67/p.245
Fessler, Jeffrey A.M22‑36/p.248
M22‑31/p.247
M19‑6/p.225
Feyrer, Johannes R05‑4/p.135
Fiala, John R02‑6/p.94
R04‑5/p.95
Ficorella, Francesco J4‑8/p.160
Fiederle, Michael R01‑8/p.93
R05‑49/p.139
R05‑20/p.136
R15‑2/p.226
J3‑3/p.115
R13‑5/p.202
N12‑4/p.107
NPO1‑45/p.120
R05‑4/p.135
R01‑3/p.93
Fiedler, Fine M19‑3/p.224
NPO2‑64/p.166
M21‑11/p.241
Fiergolski, Adrian NPO2‑170/p.174
Filipescu, Dan ‑N16‑7/p.111
Fill, Sandra M20‑7/p.225
Fingerle, Alexander A.
M20‑6/p.225
M20‑7/p.225
Fink, David N40‑8/p.191
Fior, Gabriel M20‑6/p.225
Fiorillo, Giuliana NPO1‑112/p.126
Fiorini, Carlo NPO2‑121/p.170
NPO2‑225/p.178
N46‑5/p.195
HT2‑6/p.80
M21‑40/p.243
NPO2‑77/p.167
J4‑8/p.160
M21‑2/p.240
Fiorini, Massimiliano NPO2‑159/p.173
NPO2‑204/p.176
Firsching, Markus N37‑3/p.189
Fischer, Florian M20‑6/p.225
Fischer, Frank R05‑4/p.135
Fischer, Peter M18‑18/p.235
NPO2‑105/p.169
J1‑4/p.114
N8‑8/p.92
N46‑5/p.195
Fisher, Darrell R.M14‑1/p.223
Fleury, Julien L.J2‑3/p.115
Flouzat, Christophe N44‑7/p.194
Flynn, Alison NPO2‑25/p.163
Fochuk, Petro M.
R05‑3/p.135
R05‑36/p.138
R10‑4/p.159
Folger, Gunter N29‑3/p.153
Fontaine, Rejean J1‑5/p.114
M11‑59/p.208
Fonte, Paulo M11‑61/p.208
Ford, Eric C.M21‑29/p.242
Forman, Leon N11‑1/p.106
Fornal, B.NPO1‑21/p.118
Fornaro, Giulia N36‑6/p.188
Fornaro, Laura R05‑13/p.136
Forshaw, Dean N41‑4/p.192
Forti, Francesco NPO1‑8/p.117
Fortunato, Elvira M.
R11‑1/p.201
Foster, Michael N4‑3/p.90
Fougeron, Denis NPO1‑6/p.117
Fournier, Pauline‑Helene NPO2‑106/p.169
Fowler, Joanna M21‑37/p.243
Fraboni, Beatrice R11‑5/p.201
Fraga, Francisco NPO1‑134/p.127
Fragkiskos, Sotirios NPO2‑129/p.171
Fraile, Luis M. M16‑26/p.228
Franc, Benjamin R06‑3/p.113
Franc, Jan R05‑40/p.138
R03‑3/p.94
R05‑22/p.136
R05‑19/p.136
R05‑20/p.136
Francis, Kurt N2‑7/p.89
Franco, Andrea N24‑3/p.149
Franklin, Daniel R.
NPO2‑56/p.165
M11‑46/p.207
Fras, Markus N44‑5/p.194
N40‑8/p.191
Freese, David L.M11‑20/p.205
M25‑4/p.258
Freitag, Dieter NPO2‑114/p.170
Freixas, Lluis NPO2‑208/p.177
M16‑48/p.230
Fretwurst, Eckhart R07‑1/p.113
Freud, Nicolas M21‑31/p.242
Frey, Eric C.M06‑4/p.197
M03‑8/p.156
M22‑3/p.245
M23‑18/p.250
M13‑16/p.215
M22‑1/p.245
M16‑31/p.229
M13‑32/p.216
Fried, Jack M16‑22/p.228
N11‑1/p.106
R02‑5/p.94
R02‑1/p.93
J4‑3/p.160
N33‑6/p.186
Friederich, Hannes N20‑5/p.146
N20‑8/p.146
N20‑7/p.146
N39‑4/p.190
Friedrich, Frank NPO2‑47/p.164
Fritzsch, Thomas N30‑5/p.153
Frizzi, Tommaso M21‑2/p.240
N30‑7/p.154
HT2‑6/p.80
Frodjh, Erik RD2‑7/p.83
Frojdh, Christer R12‑1/p.201
J4‑7/p.160
R05‑10/p.136
Frojdh, Erik R05‑10/p.136
R15‑3/p.226
Fronk, Ryan G.R14‑1/p.203
Fu, Geng N34‑7/p.187
N24‑6/p.149
NPO2‑231/p.178
Fu, Jianqiang R05‑27/p.137
Fu, Lin M06‑7/p.197
Fu, Yunan N14‑5/p.109
Fucci, Adolfo N17‑3/p.111
N44‑6/p.194
Fuchs, Theobald O.
N37‑3/p.189
Fuduli, I.NPO2‑57/p.165
Fuduli, Iolanda NPO2‑48/p.164
Fuduli, L. NPO2‑51/p.165
Fuin, Niccolo M17‑15/p.232
Fujibuchi, Toshioh NPO1‑198/p.132
Fujii, Hirofumi M11‑22/p.205
Fujii, Kazuo NPO1‑4/p.117
Fujii, Yuki N32‑5/p.186
Fujimaki, Shu M18‑35/p.237
N43‑6/p.193
M11‑21/p.205
NPO2‑43/p.164
M21‑5/p.240
NPO1‑155/p.129
Fujimoto, Yutaka NPO1‑189/p.132
NPO1‑33/p.119
NPO1‑172/p.130
NPO1‑41/p.120
NPO1‑35/p.120
NPO1‑36/p.120
NPO1‑170/p.130
NPO1‑25/p.119
NPO1‑38/p.120
NPO1‑171/p.130
N23‑5/p.148
NPO1‑28/p.119
NPO1‑40/p.120
NPO1‑19/p.118
NPO1‑165/p.130
NPO1‑208/p.133
N39‑7/p.191
NPO1‑39/p.120
Fujita, Takuya NPO1‑144/p.128
N11‑2/p.106
NPO1‑150/p.128
Fujita, Yowichi NPO1‑3/p.117
Fujiwara, Takeshi N10‑4/p.106
N7‑3/p.91
N23‑5/p.148
Fukabori, Akihiro NPO1‑78/p.123
Fukami, Kenji NPO2‑104/p.169
Fukayama, Masashi M11‑15/p.205
M21‑66/p.245
Fukazawa, Yasushi N1‑6/p.88
N9‑4/p.105
N39‑6/p.190
Fukuchi, Tomonori NPO2‑186/p.175
Fukuda, Kentaro NPO1‑25/p.119
N9‑4/p.105
NPO1‑170/p.130
NPO1‑49/p.121
N39‑6/p.190
NPO1‑19/p.118
N39‑7/p.191
NPO1‑208/p.133
NPO1‑205/p.133
N4‑4/p.90
NPO1‑36/p.120
NPO1‑165/p.130
NPO1‑189/p.132
Fukuda, Masafumi NPO2‑3/p.161
Fukuda, Shigekazu HT1‑4/p.79
Fukumitsu, Kenshi N12‑1/p.107
Fukunaga, Junichi NPO1‑198/p.132
Fukushima, Kazuhito M11‑69/p.209
Fukuta, Kentaro N23‑5/p.148
Fukuyama, Taro J4‑4/p.160
N1‑6/p.88
Fulton, Roger R.M18‑38/p.237
M10‑2/p.200
M18‑15/p.235
M18‑10/p.235
M18‑11/p.235
M19‑8/p.225
M18‑13/p.235
M18‑26/p.236
M22‑18/p.246
Fung, George S.K. M23‑21/p.250
M11‑69/p.209
M23‑18/p.250
M20‑3/p.225
M08‑3/p.199
M06‑4/p.197
Furenlid, Lars R.R03‑7/p.94
M21‑61/p.245
M14‑1/p.223
Furukawa, Yasuo N28‑2/p.152
Furukawa, Yukito NPO2‑134/p.171
Furumiya, Tetsuo M12‑59/p.214
Furuta, Masafumi M12‑59/p.214
Fuschino, Fabio M21‑45/p.243
N14‑8/p.109
Fuse, Tetushito N28‑7/p.152
Futami, Yoshisuke NPO1‑171/p.130
NPO1‑172/p.130
Fysikopoulos, Eleftherios M21‑48/p.244
NPO2‑163/p.174
G
Gabor, Thomas RD2‑10/p.83
Gac, Nicolas M17‑7/p.231
Gaens, Michaela E.
M18‑28/p.236
M24‑2/p.257
Gagnon, Daniel M03‑7/p.156
M24‑3/p.257
M23‑12/p.250
M21‑43/p.243
Gagnon, Louis‑Philipe RD2‑6/p.83
Gai, Moshe N3‑7/p.89
Gaioni, Luigi NPO2‑222/p.178
Galasso, Matteo M16‑20/p.228
M16‑18/p.228
NPO2‑232/p.178
N43‑8/p.193
M11‑55/p.208
Galbiati, Arnaldo N7‑6/p.92
Galland, Frdric M12‑26/p.211
Gallant, Grant NPO2‑34/p.163
Galli, Luca N13‑4/p.108
NPO1‑141/p.128
Gallivanone, Francesca M23‑24/p.251
Galvz, Jos L.R05‑50/p.139
Gandhi, Thulashi R06‑4/p.113
Gandhi, Thulasi J3‑5/p.116
Ganin, Alexander M08‑4/p.199
Gao, Deyuan M16‑58/p.231
Gao, Min NPO2‑117/p.170
Gao, Peng M12‑36/p.212
M17‑25/p.233
Gao, Wu M16‑58/p.231
Garcia, Carmen NPO2‑72/p.166
Garcia, Francisco NPO1‑129/p.127
Garcia, Javier NPO2‑76/p.167
NPO2‑73/p.167
Garcia, Marie‑Paule M13‑13/p.215
Garcia, Rocio NPO2‑175/p.174
Garcia‑Olcina, Raimundo M16‑40/p.229
Garcia‑Sciveres, Maurice NPO1‑6/p.117
Garella, Maria Adelaide HT1‑3/p.79
Garlati, Luisella RD1‑6/p.82
Garrido, Lluis NPO2‑208/p.177
M16‑48/p.230
Garutti, Erika N8‑4/p.92
NPO2‑151/p.173
Gascon, David M16‑48/p.230
NPO2‑208/p.177
Gascon, Martin M.
N4‑7/p.90
NPO1‑77/p.123
Gaspard, Michel M16‑43/p.230
Gasparini, Leonardo N8‑6/p.92
N34‑8/p.187
Gaston, Carlos NPO2‑221/p.178
Gatta, Maurizio N2‑1/p.88
Gauvin, Neal NPO2‑69/p.166
N9‑3/p.105
Gazit, Rotem NPO2‑34/p.163
Ge, Zengwei NPO2‑63/p.166
NPO2‑152/p.173
Gebhardt, Pierre M16‑12/p.227
J2‑7/p.115
M12‑42/p.212
M12‑47/p.213
Gehre, Daniel R09‑5/p.158
R05‑12/p.
Geissbuehler, Jonas N24‑3/p.149
Gektin, Alexander V.
NPO1‑187/p.131
N20‑2/p.146
Genba, Kei N25‑5/p.150
Gendotti, Adamo N20‑8/p.146
N20‑5/p.146
Gendotti, Ulisse RD1‑10/p.82
N20‑8/p.146
N20‑5/p.146
N20‑7/p.146
N39‑4/p.190
Geng, Weigang M15‑7/p.224
Genolini, Bernard N4‑1/p.89
N16‑4/p.110
George, Jonathan M02‑4/p.155
M22‑48/p.249
George, Richard T.
M23‑41/p.252
M23‑40/p.252
George, Stuart P.RD1‑8/p.82
Georgiev, Strahil B.
NPO1‑180/p.131
Georgiou, Maria NPO2‑163/p.174
M21‑48/p.244
Geraci, Angelo NPO2‑194/p.176
NPO1‑143/p.128
NPO2‑168/p.174
NPO2‑166/p.174
NPO2‑192/p.176
NPO2‑167/p.174
Geraldelli, Wender NPO2‑50/p.165
Gerganov, Georgi V
M21‑17/p.241
NPO2‑143/p.172
Gerlach, Thomas N33‑7/p.186
Gerling, Mark N7‑5/p.92
N15‑3/p.110
NPO1‑219/p.134
Gerritsen, Margot N18‑4/p.112
Geschwind, Jean‑Francois H
M03‑8/p.156
Gessler, Patrick NPO2‑201/p.176
N30‑2/p.153
NPO2‑233/p.178
Gessler, Thomas N33‑2/p.186
Ghadiri, Hossein M13‑22/p.216
Ghaly, Michael M22‑1/p.245
M16‑31/p.229
Ghanem, Ahmed M
M05‑7/p.196
Ghazanfari, Nafise HT2‑4/p.80
Ghelman, Max NPO2‑36/p.164
Gheorghe, Codin NPO2‑211/p.177
NPO2‑210/p.177
Gheorghe, Ioana N16‑7/p.111
Gheysens, Olivier M18‑53/p.238
Ghithan, Sharif NPO1‑17/p.118
NPO1‑134/p.127
Gholamzadeh, Zohreh N27‑7/p.151
Ghosh, Pradeep NPO2‑59/p.165
Giachero, Andrea NPO2‑159/p.173
NPO2‑71/p.166
N26‑2/p.150
Giacometti, Valentina N19‑1/p.145
Giacomini, Gabriele N13‑2/p.108
R05‑39/p.138
NPO2‑121/p.170
NPO2‑77/p.167
J4‑8/p.160
N41‑1/p.192
M21‑40/p.243
Gianelle, Alessio N44‑1/p.194
Gianoli, Chiara HT3‑4/p.81
M21‑12/p.241
Giaz, Agnese NPO1‑21/p.118
NPO1‑20/p.118
NPO1‑15/p.118
Gigengack, Fabian M18‑37/p.237
Giha, Cristian M22‑29/p.247
Gil, Alejandro J1‑4/p.114
Gilardi, Maria Carla M23‑24/p.251
Gillam, John E.M21‑3/p.240
M21‑24/p.242
M11‑45/p.207
M07‑4/p.198
M21‑22/p.242
Gillespie, Sean N15‑7/p.110
Gillin, Michael NPO2‑157/p.173
Gimenez, Eva R05‑10/p.136
Gindi, Gene M13‑27/p.216
Gingras, Luc RD2‑2/p.83
Ginsz, Michael NPO2‑65/p.166
Ginzburg, Dimitry NPO2‑36/p.164
Giordanengo, Simona HT1‑3/p.79
Giordano, Claudia N26‑2/p.150
Giordano, Vincenzo NPO1‑68/p.122
Giubilato, Piero NPO1‑5/p.117
N22‑2/p.147
N22‑1/p.147
Giuseppina Bisogni, Maria M03‑4/p.156
Glab, Sebastian M16‑47/p.230
NPO2‑75/p.167
Gligorova, Angela N34‑1/p.187
Glodo, Jarek N12‑6/p.107
J3‑1/p.115
N20‑3/p.146
Glodo, Jaroslaw N7‑5/p.92
Gnatyuk, Dmytro V.
R05‑23/p.137
Gnatyuk, Volodymyr A.
R03‑2/p.94
Go, Yeonju NPO2‑61/p.166
Godiot, Stephanie NPO1‑6/p.117
Goeltl, Leonard N20‑5/p.146
N39‑4/p.190
N20‑7/p.146
N20‑8/p.146
Goertzen, Andrew L.
M13‑12/p.215
M21‑34/p.243
M11‑26/p.206
M16‑42/p.229
M21‑62/p.245
M12‑41/p.212
M06‑6/p.197
M11‑39/p.207
Goettlicher, Peter N30‑1/p.153
N14‑7/p.109
Goffe, Mathieu NPO1‑9/p.117
Goffin, Karolien M08‑2/p.198
Gokahle, Sasmit R04‑6/p.95
R05‑8/p.135
Gola, Alberto M21‑36/p.243
M14‑2/p.223
M21‑40/p.243
N8‑1/p.92
J1‑7/p.114
N8‑7/p.92
N8‑8/p.92
Goldan, Amir H.
R12‑2/p.201
J3‑8/p.116
Goldschmidt, Benjamin M12‑42/p.212
M16‑12/p.227
Golnik, Christian M19‑3/p.224
M21‑11/p.241
NPO2‑64/p.166
Golovatyuk, V.NP01‑119/p.126
Golovko, Victor NPO2‑34/p.163
Golyshev, Vladimir D.
R05‑17/p.136
Gomez, Nini A.M11‑37/p.207
Gondal, M. A.NPO2‑1/p.161
NPO2‑62/p.166
Gondo, Akane M11‑17/p.205
Gonen, Ehud NPO2‑36/p.164
Gong, Datao N17‑5/p.111
NPO2‑179/p.175
Gong, Guang Hua NPO2‑206/p.177
NPO2‑212/p.177
N40‑2/p.191
M11‑52/p.208
NPO2‑185/p.175
Gong, Hui NPO1‑200/p.132
NPO2‑212/p.177
NPO2‑206/p.177
N23‑8/p.148
NPO1‑174/p.130
Gong, Ke NPO2‑117/p.170
Gong, Kuang M17‑40/p.234
Gong, Wenxuan N33‑5/p.186
Gonzalez, Antonio Javier M22‑7/p.246
M17‑20/p.232
M11‑6/p.204
M11‑27/p.206
NPO2‑73/p.167
M16‑40/p.229
NPO2‑76/p.167
Gonzalez, Paulo M18‑50/p.238
Gonzlez, Luis X.NPO2‑175/p.174
Goorden, Marlies C.
M22‑15/p.246
Gordo, Paulo M.M11‑61/p.208
Gorini, Giuseppe NPO1‑90/p.124
Gorke, Hubert NPO1‑202/p.133
Gorokhov, Sergey A.
R05‑46/p.139
Gostojic, Aleksandar N9‑7/p.105
Goto, Hirotaka NPO1‑50/p.121
Gotti, Claudio NPO2‑71/p.166
NPO2‑159/p.173
NPO2‑217/p.177
Gotz, Diego N1‑5/p.88
Gourishetty, Anil Kumar NPO1‑63/p.122
N28‑5/p.152
Goyal, S. K.NPO2‑118/p.170
NPO2‑136/p.172
Graafsma, Heinz N14‑7/p.109
N30‑5/p.153
N30‑1/p.153
N30‑6/p.153
M21‑60/p.244
Grace, Carl N26‑8/p.151
Gramegna, Fabiana R05‑39/p.138
Grana, Chiara Maria M21‑67/p.245
Grancagnolo, Francesco NPO2‑200/p.176
NPO1‑126/p.127
NPO1‑127/p.127
Grandl, Susanne M20‑7/p.225
Granja, Carlos N38‑2/p.190
Grant, Alexander M.
M16‑32/p.229
Grant, Lindsay N8‑6/p.92
M02‑3/p.155
Grassi, Marco NPO1‑141/p.128
N14‑8/p.109
M21‑45/p.243
Grassi, Valerio N5‑2/p.90
Gratta, Giorgio NPO2‑98/p.168
Gravel, Paul M06‑1/p.197
Gray, Justin R10‑5/p.159
Grecchi, Elisabetta M22‑4/p.246
Greenall, Ashley NPO2‑72/p.166
Greene, J. P.N38‑1/p.189
Greer, Peter B.M07‑7/p.198
Gregoire, Marie‑Claude M11‑43/p.207
M13‑12/p.215
Gregor, Jens M23‑11/p.250
M17‑4/p.231
Greiffenberg, Dominic N46‑3/p.195
N30‑1/p.153
N14‑7/p.109
Grein, Christoph R03‑6/p.94
Grenier, Philippe NPO2‑99/p.168
Greving, Imke NPO2‑47/p.164
Grigoriev, Dmitry N.
NPO1‑37/p.120
Grill, Roman R15‑1/p.226
R05‑22/p.136
R05‑40/p.138
R03‑3/p.94
R05‑20/p.136
R05‑19/p.136
Grimm, Oliver R05‑48/p.139
Grimm, Robert M13‑33/p.216
Grkovski, Milan M11‑41/p.207
Grobshtein, Yariv M18‑1/p.234
M11‑49/p.208
M10‑7/p.200
Grodzicka, Martyna NPO1‑99/p.125
N8‑1/p.92
Grogg, Kira M21‑21/p.241
Groll, Andrew M22‑48/p.249
M02‑4/p.155
Gromov, Vladimir N14‑5/p.109
Gros, Aleksandra N1‑5/p.88
Grossan, Bruce NPO2‑123/p.170
Grosshans, David M02‑1/p.155
Groza, Michael R05‑14/p.136
R14‑5/p.203
Grudberg, Peter M.
NPO2‑190/p.175
N24‑1/p.149
Grybos, Pawel N14‑3/p.109
N40‑5/p.191
NPO1‑146/p.128
NPO2‑209/p.177
NPO2‑218/p.177
N14‑4/p.109
Gryganskyi, Andrii P.
N19‑6/p.145
Grzymkowski, Rafal Z.
NPO2‑149/p.172
Gu, Genda R13‑3/p.202
R05‑21/p.136
Gu, Xiao Y.M11‑5/p.204
Gu, Xuejun M07‑8/p.198
Gu, Yaxu R09‑7/p.158
Gu, Zheng M11‑33/p.206
M09‑3/p.199
Guatelli, Susanna M11‑46/p.207
RD1‑9/p.82
NPO2‑55/p.165
N19‑1/p.145
HT3‑10/p.81
N28‑8/p.152
Guazzoni, Chiara N26‑4/p.150
N43‑5/p.193
NPO2‑109/p.169
N46‑7/p.195
Gueorguiev, Andrey R04‑1/p.95
N20‑3/p.146
Guerard, Bruno NPO1‑224/p.134
NPO1‑213/p.134
N23‑7/p.148
Guerin, Laura M07‑3/p.198
Guerrero, Carlos N39‑3/p.190
Guezzi, Catherine J3‑6/p.116
Guida, Roberto NPO1‑130/p.127
N10‑6/p.106
NPO2‑96/p.168
Guijarro, Matias NPO1‑69/p.122
Guillemette, Maxime RD2‑6/p.83
Guilloteau, Denis M18‑50/p.238
Guilloux, Fabrice NPO1‑9/p.117
Gulick, S.N38‑1/p.189
Gullberg, Grant T.
M06‑3/p.197
4D2‑2/p.96
M17‑11/p.232
NPO2‑81/p.167
NPO2‑40/p.164
Gundacker, Stefan N8‑5/p.92
J2‑4/p.115
N36‑6/p.188
M11‑4/p.204
Gundiah, Gautam N4‑7/p.90
NPO1‑77/p.123
Gunji, Taku N10‑3/p.106
NPO1‑184/p.131
Gunter, Donald N11‑3/p.107
Guo, Di N17‑5/p.111
Guo, Dong Y.NPO2‑117/p.170
Guo, Fang N44‑8/p.194
Guo, Jianjun NPO2‑231/p.178
Guo, Juen M18‑12/p.235
Guo, Qi NPO2‑161/p.173
Guo, Qingzhen N9‑6/p.105
Guo, Rongrong R09‑7/p.158
Guo, Xiaoqiang NPO1‑182/p.131
NPO1‑186/p.131
Guo, Zhihui M18‑16/p.235
Gurin, B.NPO1‑192/p.132
Guss, Paul N4‑3/p.90
Guvenis, Albert M13‑20/p.215
H
Ha, Jang Ho R10‑1/p.158
R01‑1/p.93
R15‑8/p.226
R05‑33/p.137
R05‑5/p.135
R05‑24/p.137
R05‑38/p.138
R05‑42/p.138
R09‑1/p.158
R05‑51/p.139
R05‑15/p.136
Ha, Sungsoo M12‑39/p.212
Haas, Cornelia R05‑4/p.135
Haas, Wilhelm M12‑8/p.210
Haba, Hiromitsu NPO2‑186/p.175
Habib, Amr M09‑4/p.199
Hackenburg, Ariana N3‑7/p.89
Haefner, Andrew NPO2‑53/p.165
N11‑3/p.107
N25‑4/p.150
Haemisch, York M16‑46/p.230
Haese‑Seiller, Martin N7‑2/p.91
N23‑6/p.148
Häggström, Ida M23‑31/p.251
M23‑32/p.251
Hagino, Kouichi J4‑4/p.160
Hagiwara, Masayuki NPO1‑210/p.133
Hahn, Ferdinand N10‑6/p.106
Haider, Stefan N10‑6/p.106
Hailey, Charles NPO2‑128/p.171
Hails, Janet E.R15‑4/p.226
Hajdas, W. NPO2‑69/p.166
Hajdas, Wojciech NPO1‑182/p.131
NPO1‑166/p.130
N9‑3/p.105
NPO1‑74/p.123
NPO1‑186/p.131
Hajima, Ryoichi NPO2‑27/p.163
NPO1‑72/p.122
NPO2‑30/p.163
Hakmana Witharana, Sampath S.
NPO1‑192/p.132
Hale, Hannah NPO2‑82/p.167
Hall Wilton, Richard N23‑7/p.148
Hall, Geoff N13‑8/p.108
Hall, Kevin D.M18‑12/p.235
Haller, Gunther NPO2‑110/p.169
NPO2‑114/p.170
N30‑4/p.153
Hallett, William A.
M18‑39/p.237
Hall‑Wilton, Richard N7‑8/p.92
N23‑6/p.148
N45‑2/p.194
NPO1‑213/p.134
N7‑2/p.91
NPO2‑138/p.172
N23‑3/p.148
NPO1‑196/p.132
Hall‑Wilton, Richard J.
NPO1‑201/p.133
Ham, Chul Min NPO1‑179/p.131
Hamada, Nao NPO1‑153/p.129
Hamadache, Clarisse N9‑7/p.105
Hamagaki, Hideki N10‑3/p.106
NPO1‑184/p.131
Hamann, Elias J3‑3/p.115
Hamill, James M02‑2/p.155
Hamilton, David J.
NPO1‑22/p.119
Hamlin, Donald K.
M14‑1/p.223
Hammig, Mark D.
NPO1‑10/p.118
N34‑6/p.187
NPO2‑223/p.178
Hammoud, Dima A.
M18‑12/p.235
Hamy, Valentin M17‑24/p.233
Hamze, Hasar M13‑12/p.215
M11‑43/p.207
Han, Areum M16‑57/p.231
Han, Bong Soo M22‑45/p.248
Han, Dejun NPO1‑91/p.124
Han, Fangfang M22‑41/p.248
M18‑61/p.239
M22‑42/p.248
Han, Hao M17‑18/p.232
M18‑61/p.239
M22‑9/p.246
M22‑41/p.248
Han, Hyuksu R05‑8/p.135
R04‑6/p.95
Han, Jong Chul M13‑21/p.215
M21‑49/p.244
Han, Joo Bong NPO2‑60/p.166
Han, Ki‑Tek NPO1‑60/p.122
Han, Min Cheol N45‑5/p.195
N29‑4/p.153
N18‑1/p.112
Han, Seung Jae NPO1‑84/p.123
Han, Soorim NPO1‑94/p.124
NPO1‑106/p.125
NPO1‑95/p.124
NPO1‑169/p.130
M11‑13/p.205
Han, Su Chul M18‑41/p.237
M18‑19/p.235
Han, Won Taek NPO2‑156/p.173
Han, Xiao M21‑68/p.245
M09‑7/p.200
M22‑33/p.247
M12‑33/p.212
M21‑20/p.241
M22‑32/p.247
Han, Yanjiang M11‑42/p.207
Han, Zhangbo RD2‑8/p.83
N19‑4/p.145
NPO2‑56/p.165
Haneishi, Hideaki M21‑25/p.242
M21‑13/p.241
M11‑17/p.205
HT3‑2/p.80
M07‑1/p.197
M11‑7/p.204
Hanke, Randolf N37‑3/p.189
Hankiewicz, Janusz M12‑43/p.212
Hansen, Adam E.
M18‑32/p.236
Hansen, Karsten NPO2‑105/p.169
Hansen, Thor‑Erik J4‑5/p.160
Hanson, Kael NPO2‑169/p.174
Hanzouli, Houda M18‑54/p.238
Hao, Guiyang M18‑46/p.238
Hao, Jia M15‑2/p.223
M08‑8/p.199
M18‑52/p.238
Hara, Hidetake M12‑13/p.210
Hara, Kazuhiko NPO1‑3/p.117
N41‑2/p.192
Hara, Koji NPO1‑153/p.129
Harano, Hideki NPO1‑209/p.133
NPO1‑210/p.133
Hardcastle, Nicholas RD2‑5/p.83
Harion, Tobias NPO2‑229/p.178
J1‑4/p.114
Harkness, Laura J
NPO1‑136/p.128
N38‑4/p.190
Harris, Brian W.R15‑6/p.226
R13‑7/p.202
Harrison, Mark J.
N36‑7/p.188
Harrison, Robert L.
M13‑30/p.216
Hart, Philip A.NPO2‑111/p.169
NPO2‑114/p.170
N30‑4/p.153
NPO2‑113/p.170
Hartmann, Robert N43‑5/p.193
NPO2‑109/p.169
Hartsough, Neal E.
J3‑5/p.116
R06‑4/p.113
Haruyama, Mitsuo NPO1‑195/p.132
Hasanbegovic, Amir NPO2‑211/p.177
NPO2‑210/p.177
Hashimoto, Makoto M12‑18/p.211
M12‑28/p.211
Hashizume, Nobuya M12‑59/p.214
Hasi, Jasmine NPO2‑110/p.169
NPO2‑99/p.168
Hassler, Ulf N37‑3/p.189
Hatazawa, Jun M18‑70/p.239
M12‑54/p.213
M11‑54/p.208
Hatsui, Takaki N41‑2/p.192
M14‑4/p.223
N30‑3/p.153
NPO1‑11/p.118
Hatt, Mathieu M18‑54/p.238
Hatzistratis, Dimitrios N14‑6/p.109
Hauback, Bjorn C.
N45‑2/p.194
NPO1‑221/p.134
Hauf, Steffen NPO2‑145/p.172
N45‑1/p.194
N30‑2/p.153
NPO2‑108/p.169
Hauser, Marc N41‑4/p.192
Hauser, Nik M12‑20/p.211
Hausladen, Paul A.
N25‑1/p.149
Hautzel, Hubertus M12‑51/p.213
Hawe, David M23‑17/p.250
Hawkins‑Daarud, Andrea M13‑30/p.216
Hawrami, Rastgo N12‑6/p.107
N4‑3/p.90
Hayakawa, Takehito NPO2‑30/p.163
NPO2‑27/p.163
NPO1‑72/p.122
Hayato, Yoshinari N24‑5/p.149
Hayden, Charles M04‑2/p.156
Hayward, Jason P
NPO1‑46/p.120
NPO1‑79/p.123
NPO2‑67/p.166
N36‑8/p.188
NPO2‑28/p.163
N25‑1/p.149
NPO2‑31/p.163
He, Feng N11‑4/p.107
M11‑52/p.208
He, Li NPO1‑199/p.132
He, Lisheng R01‑7/p.93
He, Zhong R15‑7/p.226
R05‑29/p.137
R04‑1/p.95
R02‑5/p.94
J4‑2/p.160
R09‑6/p.158
R05‑26/p.137
R05‑32/p.137
NPO2‑39/p.164
Hecht, Adam AN26‑7/p.151
Hegazy, Mohammed M12‑22/p.211
Heggen, Johannes NPO1‑202/p.133
Hegner, Benedikt N6‑7/p.91
Heidel, Klaus M19‑3/p.224
M21‑11/p.241
Heilbronn, Lawrence H.
NPO2‑80/p.167
NPO2‑31/p.163
Heisen, Burkhard N45‑1/p.194
NPO2‑145/p.172
Heller, Matthieu M11‑45/p.207
Hellerhoff, Karin M20‑7/p.225
Hemperek, Thomasz NPO1‑6/p.117
Henderson, Nick N18‑4/p.112
Henderson, Robert K.
N8‑6/p.92
M02‑3/p.155
Hennard, Gilbert R13‑5/p.202
Hennig, Wolfgang N24‑1/p.149
Hennino, Thierry N16‑3/p.110
Henrich, Beat N46‑3/p.195
N14‑7/p.109
Henrotin, Sebastian M19‑2/p.224
HT2‑6/p.80
M21‑2/p.240
Heo, Duchang M12‑2/p.210
R05‑6/p.135
NPO1‑160/p.129
Heo, Seung‑Uk R05‑7/p.135
R05‑9/p.135
Heo, Sung Kyn M21‑55/p.244
Heo, Ye Ji R05‑7/p.135
Herbst, Ryan NPO2‑114/p.170
N30‑4/p.153
Herman, Joseph M.
M03‑8/p.156
Hernandez, Jose N6‑6/p.91
Hernandez, Liczandro M11‑27/p.206
NPO2‑76/p.167
NPO2‑73/p.167
M16‑40/p.229
M17‑20/p.232
M22‑7/p.246
Hernanz, Margarita R05‑50/p.139
Herraiz, Joaquin L. M13‑2/p.214
M23‑16/p.250
M18‑44/p.237
M03‑5/p.156
M16‑26/p.228
Herranz, Elena M13‑2/p.214
Herrmann, Sven C.
NPO2‑110/p.169
NPO2‑114/p.170
NPO2‑111/p.169
N30‑4/p.153
NPO2‑113/p.170
Hertel, Nolan E.NPO1‑222/p.134
Herwig, Kenneth W.
N23‑1/p.148
Herzen, Julia M20‑7/p.225
M23‑13/p.250
M12‑21/p.211
M20‑6/p.225
NPO2‑47/p.164
Herzog, Hans M22‑2/p.245
M12‑51/p.213
M24‑2/p.257
M22‑21/p.247
Hess, Mirco M18‑37/p.237
Hetterich, Holger M20‑7/p.225
Hidvegi, Attila NPO2‑233/p.178
NPO2‑201/p.176
Higgins, William M.
R02‑6/p.94
NPO1‑27/p.119
R04‑5/p.95
Higuchi, Masahiro NPO1‑153/p.129
Higuchi, Mikio NPO1‑57/p.121
NPO1‑23/p.119
N36‑5/p.188
N4‑2/p.89
Higuchi, Takahiro M23‑21/p.250
M11‑69/p.209
Higueret, Stephane NPO1‑194/p.132
Hill, Cassie N37‑2/p.189
NPO2‑41/p.164
Hill, Randall M.N25‑7/p.150
Hillemanns, Hartmut N22‑1/p.147
N22‑2/p.147
Himmi, Abdelkader NPO1‑9/p.117
Hinoverov, Sergy R05‑25/p.137
Hinz, Rainer M18‑39/p.237
Hipp, Alexander M20‑6/p.225
M23‑13/p.250
M12‑21/p.211
M20‑7/p.225
Hirano, Yoshiyuki M21‑16/p.241
M07‑2/p.198
M21‑59/p.244
M12‑52/p.213
M21‑47/p.244
M07‑1/p.197
M11‑17/p.205
NPO2‑58/p.165
HT3‑2/p.80
Hirayama, Hideo NPO1‑31/p.119
N29‑1/p.152
Hirayanagi, Michito N11‑2/p.106
NPO1‑145/p.128
NPO1‑150/p.128
NPO1‑144/p.128
Hiromura, Makoto N28‑6/p.152
Hirono, Toko NPO2‑101/p.169
NPO2‑100/p.169
Hirota, Seiko N24‑5/p.149
Hirsemann, Helmut N30‑5/p.153
N30‑1/p.153
Hirsmann, Helmut N14‑7/p.109
Hishinuma, Kosuke NPO1‑67/p.122
Hitomi, Keitaro R04‑2/p.95
R05‑1/p.135
Hkansson, Ane R05‑2/p.135
Hnatowicz, Vladimir NPO2‑79/p.167
Ho, Cobie M18‑25/p.236
Hoang, Son M.RD1‑1/p.82
NPO1‑135/p.127
Hobbs, Robert F.M03‑8/p.156
Hoeche, Daniel N7‑2/p.91
N23‑6/p.148
Hoeferkamp, Martin NPO1‑132/p.127
Hoejgaard, Liselotte M18‑32/p.236
Hoek, Matthias NPO1‑22/p.119
Hoff, Gabriela N29‑5/p.153
N29‑4/p.153
N45‑6/p.195
NPO2‑141/p.172
N29‑6/p.153
Hofmann, Matthias M24‑4/p.257
Hofmann, Thomas N37‑3/p.189
Hogan, Daniel P.N22‑8/p.
Hoglund, Carina NPO1‑201/p.133
NPO1‑196/p.132
N7‑8/p.92
N23‑7/p.148
N23‑3/p.148
Hohberg, Melanie M25‑8/p.258
Hohmann, Eike RD1‑4/p.82
Hojgaard, Liselotte M18‑40/p.237
Holbert, Keith NPO2‑18/p.162
Holik, Michal N3‑3/p.89
Holland, Steve E.
J4‑5/p.160
Holloway, Lois M07‑7/p.198
Holm, Soeren M18‑29/p.236
Holmberg, Daniel M18‑47/p.238
Holtermann, Paul F.
M16‑52/p.230
Holubinka, Mike M15‑8/p.224
Homma, Yoshiya NPO1‑34/p.119
Honda, Katsunori NPO1‑211/p.133
Honda, Shunsuke N41‑2/p.192
NPO1‑3/p.117
Hong, Byungsik NPO2‑61/p.166
N19‑5/p.145
NPO2‑85/p.167
Hong, Cheol Pyo M22‑46/p.248
M22‑45/p.248
Hong, Huicong R14‑4/p.203
Hong, Inki M22‑19/p.247
M02‑2/p.155
M10‑6/p.200
4D2‑4/p.96
Hong, Jinki R09‑4/p.158
Hong, Ju Yeon R05‑7/p.135
Hong, Keun Sung M16‑57/p.231
Hong, Key‑Jo M16‑38/p.229
M16‑33/p.229
M06‑8/p.197
M16‑53/p.230
Hong, Minki R05‑8/p.135
Hong, Sang Bum NPO1‑178/p.131
Hong, Seong Jong M12‑48/p.213
Hong, Seung W.NPO1‑176/p.131
NPO1‑177/p.131
NPO1‑179/p.131
NPO2‑142/p.172
Hong, Seunghan NPO1‑60/p.122
Honig, Martin RD1‑3/p.82
Honkimki, Veijo NPO2‑13/p.162
Hori, Jun‑Ichi NPO1‑209/p.133
Hori, Toshitada NPO2‑30/p.163
Horigome, Toshio N30‑3/p.153
Horisberger, Roland N46‑3/p.195
Horitsugi, Genki M18‑70/p.239
Horn, Florian M12‑8/p.210
Horn, Markus N3‑7/p.89
Hornegger, Joachim M18‑18/p.235
M17‑33/p.233
M18‑51/p.238
M08‑5/p.199
M22‑35/p.248
M13‑33/p.216
M22‑14/p.246
Horstmann, Christian N7‑2/p.91
N23‑6/p.148
Hoschl, Pavel R03‑3/p.94
Hosokawa, Noburo NPO1‑89/p.124
Hosoya, Tetsuo M18‑57/p.238
Hossain, Anwar R13‑4/p.202
R09‑3/p.158
R05‑28/p.137
R02‑1/p.93
R13‑5/p.202
R05‑22/p.136
R13‑3/p.202
R05‑21/p.136
R05‑16/p.136
R13‑6/p.202
R10‑4/p.159
R05‑41/p.138
R06‑3/p.113
Hossain, Anwar M.
R05‑11/p.136
Hossain, Khalid R05‑11/p.136
Hossain, Mosaddek M18‑24/p.236
M05‑2/p.196
Hosseini, Amir N27‑2/p.151
Hosseini, Mohammad A.
HT1‑3/p.79
Hostens, Jeroen M20‑5/p.225
Hou, Suen N17‑5/p.111
Hou, Xinchi M16‑29/p.229
Houzet, Dominique M22‑30/p.247
Howard, Daryl NPO2‑112/p.170
Howell, Calvin R.
NPO2‑54/p.165
Hristov, Dimitre H.
M18‑7/p.234
Hsieh, Jiang 4D1‑3/p.96
M22‑37/p.248
MRF1‑1/p.
Hsu, David FM16‑24/p.228
M11‑20/p.205
M25‑4/p.258
Hu, Bingqiang M18‑65/p.239
Hu, Cheng M18‑69/p.239
M18‑68/p.239
Hu, Yann M16‑58/p.231
Hu, Yining M12‑37/p.212
M12‑35/p.212
Hu, Youfan NPO1‑222/p.134
Hu, Zetian M18‑65/p.239
Hu, Zhihao M16‑11/p.227
Hu, Zhiqiang HY1‑5/p.98
Huang, Chen T.N23‑8/p.148
Huang, Chuan M05‑3/p.196
Huang, Jian M23‑17/p.250
Huang, Jian‑Jung NPO1‑62/p.122
Huang, Jing M12‑30/p.212
M17‑12/p.232
Huang, Meng NPO1‑199/p.132
Huang, Ming‑Huey A.
NPO1‑62/p.122
NPO2‑123/p.170
Huang, Qiu M06‑3/p.197
M18‑65/p.239
N19‑7/p.145
Huang, Shaosen M18‑69/p.239
Huang, Shuai NPO2‑185/p.175
Huang, Wenlin M18‑65/p.239
Huang, Xiaoming M12‑1/p.209
Huang, Xinjie NPO1‑119/p.126
Huang, Zaijie M18‑65/p.239
Huber, Alan C.N24‑1/p.149
Huber, Ben PC1‑3/p.97
Huber, Jennifer S.
M03‑1/p.156
M11‑1/p.204
Hubner, Pavel RD1‑3/p.82
Hudin, Nicolas M16‑43/p.230
M09‑8/p.200
Huertas, Carlos NPO2‑73/p.167
Huesman, Ronald H.
M11‑1/p.204
Hueso‑Gonzalez, Fernando M21‑11/p.241
M19‑3/p.224
NPO2‑64/p.166
Huf Campos Braga, Leo N34‑8/p.187
N8‑6/p.92
M14‑3/p.223
Hugg, James M12‑55/p.214
Huggins, Peter M.
NPO2‑22/p.162
N11‑6/p.107
Hughes, Thomas NPO1‑136/p.128
Hu‑Guo, Christine N14‑1/p.109
NPO1‑9/p.117
Huh, Sam S.NPO2‑53/p.165
Huh, Yoonsuk Huh M13‑5/p.214
M13‑10/p.215
Huh, Young M12‑2/p.210
Hui, Cheuk HT3‑6/p.81
Huisman, Brent HT2‑4/p.80
Huizenga, Jan M21‑6/p.240
M19‑2/p.224
Hull, Ethan M14‑5/p.223
Hull, Giulia N4‑1/p.89
N16‑4/p.110
Hultman, Lars N23‑3/p.148
NPO1‑196/p.132
NPO1‑201/p.133
N7‑8/p.92
Hunter, Stanley D.
NPO2‑126/p.171
Hunter, William C.
M25‑6/p.258
M25‑3/p.258
M03‑4/p.156
M11‑25/p.206
Huovelin, Juhani NPO2‑119/p.170
Hurford, Gordon R05‑48/p.139
Hurley, Robert F.N19‑1/p.145
Hurtado, Alejandro NPO2‑175/p.174
Husson, Daniel NPO1‑194/p.132
Hutcheson, Anthony L.
NPO2‑41/p.164
N37‑6/p.189
Hutter, Jana M13‑33/p.216
Hutton, Brian FM11‑46/p.207
M12‑56/p.214
M17‑15/p.232
Hval, Sverre N45‑2/p.194
Hwang, Kyung‑Hoon M12‑60/p.214
Hwang, Ui Jung M21‑57/p.244
Hwang, Yong Gyoo R05‑46/p.139
Hwang, Younggwan R05‑37/p.138
NPO2‑23/p.162
Hydomako, Richard NPO2‑34/p.163
Hylarides, Mark D.
M14‑1/p.223
Hyun, H. J. NPO1‑97/p.124
I
Iacoangeli, Francesco NPO2‑195/p.176
N13‑8/p.108
Iacopini, Enrico N43‑3/p.193
Ianakiev, Kiril D.N7‑4/p.92
NPO2‑188/p.175
Ibbott, Geoffrey S.
M21‑4/p.240
Iborra, Amadeo NPO2‑76/p.167
M17‑20/p.232
M11‑6/p.204
M22‑7/p.246
NPO2‑73/p.167
M11‑27/p.206
Ichihara, Takashi M23‑42/p.252
M12‑29/p.211
M23‑41/p.252
Ichimiya, Ryo N27‑4/p.151
Ichimura, Yuta M11‑22/p.205
Ichinohe, Yuto N25‑5/p.150
N1‑6/p.88
Ida, Takahiro NPO2‑186/p.175
N28‑6/p.152
Idarraga‑Munoz, John P.
NPO1‑135/p.127
RD1‑1/p.82
Iguchi, Tetsuo NPO1‑51/p.121
NPO1‑208/p.133
NPO1‑220/p.134
NPO2‑11/p.162
NPO2‑10/p.161
N39‑7/p.191
NPO1‑205/p.133
Ihnart, Peter M21‑35/p.243
Iijima, Kazuhiko NPO1‑121/p.126
Iijima, Shutaro M11‑13/p.205
NPO1‑106/p.125
NPO1‑95/p.124
NPO1‑94/p.124
NPO1‑169/p.130
Iijima, Toru NPO1‑153/p.129
Ikebuchi, Hiroshi N25‑5/p.150
Ikeda, Hirokazu NPO2‑100/p.169
NPO2‑101/p.169
NPO2‑220/p.178
Ikeda, Mitsuru M22‑43/p.248
Ikeda, Yoshihiro M12‑29/p.211
Ikegami, Yoichi NPO1‑3/p.117
Ikemoto, Yukiko NPO1‑3/p.117
Ikeno, Masahiro NPO2‑220/p.178
N10‑2/p.106
NPO2‑122/p.171
Ilia, Britvitch NPO1‑182/p.131
Iliev, Metodi L.NPO2‑188/p.175
N7‑4/p.92
Ilyin, Andrey N8‑3/p.92
Im, Dong Ak M21‑55/p.244
Im, Hyung Jun M18‑63/p.239
Im, Ki Chun M12‑40/p.212
M11‑9/p.204
Imai, Kuniharu M22‑43/p.248
Imam, Mewlude N7‑8/p.92
Imamura, Toshifumi NPO1‑184/p.131
NPO2‑124/p.171
NPO1‑11/p.118
Imando, Taibi M16‑43/p.230
Imre, Miktat N16‑4/p.110
Imura, Yukino R05‑47/p.139
Inadama, Naoko NPO2‑58/p.165
M07‑1/p.197
M12‑45/p.213
M21‑47/p.244
M21‑59/p.244
M11‑17/p.205
HT3‑2/p.80
Inaniwa, Taku M07‑1/p.197
HT3‑2/p.80
M07‑2/p.198
Innes, Derek M25‑4/p.258
M11‑20/p.205
Inoue, Toshiyuki M12‑13/p.210
Inoue, Yoku R11‑3/p.201
Inrig, Elizabeth L.
N3‑6/p.89
Introini, Vittoria NPO1‑223/p.134
Introzzi, Riccardo N16‑6/p.111
Ionica, Maria J2‑2/p.115
Ionson, James R06‑3/p.113
Iovea, M.R01‑6/p.93
Ireland, David G.
NPO1‑22/p.119
Iriya, Tatsuaki M21‑66/p.245
Isern, Jordi R05‑50/p.139
Ishibashi, Hiroyuki N4‑2/p.89
NPO1‑23/p.119
NPO1‑57/p.121
Ishida, Atsushi NPO1‑89/p.124
Ishida, Masaki M23‑42/p.252
Ishidu, Sumito NPO1‑208/p.133
NPO1‑205/p.133
N39‑7/p.191
Ishii, Keizo M16‑59/p.231
R04‑2/p.95
Ishii, Satomi NPO2‑43/p.164
Ishikawa, Masayori M21‑19/p.241
Ishikawa, Tetsuya NPO1‑83/p.123
Ishikawa, Yoshitaka N11‑2/p.106
NPO1‑150/p.128
Ishitsu, Takafumi M16‑2/p.227
N28‑4/p.152
NPO1‑164/p.130
Ishizu, Sumito N39‑6/p.190
N9‑4/p.105
NPO1‑19/p.118
Isnaini, Ismet M16‑15/p.228
Isobe, Mitsutaka NPO2‑10/p.161
Ito, Hiroshi NPO1‑94/p.124
M07‑1/p.197
NPO1‑169/p.130
NPO1‑106/p.125
M12‑45/p.213
M21‑16/p.241
M11‑11/p.205
NPO1‑29/p.119
M21‑47/p.244
M21‑25/p.242
NPO1‑95/p.124
M12‑52/p.213
N28‑2/p.152
Ito, Hirosi M11‑13/p.205
Ito, Mikiko M16‑25/p.228
M16‑10/p.227
Ito, Seiji N27‑1/p.151
Ito, Shigeki NPO1‑185/p.131
M11‑15/p.205
Ito, Takayuki NPO1‑104/p.125
Ito, Takeshi NPO1‑50/p.121
Ito, Tetsu R05‑18/p.136
Itoh, Shigeki NPO1‑175/p.130
Itoh, Yasuhiko NPO1‑88/p.124
Itow, Tsukasa NPO2‑175/p.174
Itow, Yoshitaka NPO2‑175/p.174
Ivan, Adrian N34‑7/p.187
NPO1‑100/p.125
Ivannikova, Nina V.
NPO1‑37/p.120
Ivanov, Alexey NPO1‑168/p.130
Ivanov, Victor R05‑25/p.137
Iwai, Go HT3‑8/p.81
Iwaki, Satoru N10‑2/p.106
NPO2‑122/p.171
Iwamoto, Yousuke NPO1‑26/p.119
Iwanczyk, Jan S.J3‑5/p.116
R06‑4/p.113
Iwanowska, Joanna N20‑5/p.146
N12‑3/p.107
N20‑2/p.146
N20‑8/p.146
Iwase, Hiroshi NPO1‑31/p.119
Iwata, Atsushi NPO2‑124/p.171
NPO1‑184/p.131
NPO1‑11/p.118
Iwata, Shuichi NPO1‑153/p.129
Iyengar, Anagha S.
NPO2‑31/p.163
N25‑1/p.149
Izaki, Kenji N36‑5/p.188
N28‑3/p.152
Izawa, Kotaro M12‑29/p.211
Izquierdo Rosas, Silvia NPO2‑96/p.168
Izumi, Mikio NPO1‑162/p.130
J
Jaaskelainen, Kimmo NPO1‑9/p.117
Jack, Stefanie N14‑7/p.109
N30‑1/p.153
Jackson, Andrew N23‑3/p.148
Jackson, Carl NPO1‑92/p.124
J1‑2/p.114
M21‑34/p.243
Jackson, Miranda N39‑6/p.190
N9‑4/p.105
Jackson, Pamela R.
M13‑30/p.216
Jackson, Stuart L.
NPO2‑41/p.164
Jacobs, Joshua M13‑30/p.216
Jakobs, Karl N41‑4/p.192
Jakobsen, Anders C.
NPO2‑13/p.162
Jakubek, Jan R12‑5/p.202
RD2‑8/p.83
RD1‑1/p.82
N43‑7/p.193
J3‑4/p.115
N3‑3/p.89
N19‑4/p.145
J4‑1/p.160
NPO2‑56/p.165
NPO1‑135/p.127
Jakubek, Martin J3‑4/p.115
James, Jonathan M.
N15‑1/p.110
James, Ralph B.R05‑36/p.138
R05‑3/p.135
R13‑3/p.202
R13‑5/p.202
R05‑28/p.137
R13‑4/p.202
R05‑16/p.136
R05‑22/p.136
R10‑1/p.158
R13‑6/p.202
R09‑4/p.158
R05‑11/p.136
R01‑1/p.93
R06‑3/p.113
R05‑21/p.136
R10‑5/p.159
R10‑4/p.159
J4‑3/p.160
R15‑8/p.226
R02‑1/p.93
R05‑41/p.138
R09‑3/p.158
Jamil, M. NPO1‑206/p.133
NPO1‑207/p.133
Jan, Jakubek NPO1‑133/p.127
Janecek, Martin M11‑1/p.204
Jang, Kwang Eun M12‑14/p.210
Jang, Kyoung Won NPO1‑58/p.121
NPO1‑60/p.122
Jang, Sung Ho M22‑46/p.248
Jang, Zeehoon NPO2‑86/p.168
Janos, Alan R01‑2/p.93
Jansa Llamas, Isabel NPO1‑201/p.133
Janssens, Guillaume HT2‑6/p.80
M21‑2/p.240
M19‑2/p.224
Janvier, Batiste M09‑8/p.200
M16‑43/p.230
Jaouen, Vincent M18‑50/p.238
Jarron, Pierre J1‑6/p.114
J2‑4/p.115
N14‑2/p.109
M11‑4/p.204
Jastrząb, M NPO1‑21/p.118
Jatekos, Balazs M11‑31/p.206
M02‑3/p.155
Javed, Muhammad R.
M05‑6/p.196
Jensen, Jens N7‑8/p.92
Jensen, Rasmus R.
M18‑40/p.237
Jeon, Dayeong NPO1‑60/p.122
Jeon, H. B. NPO1‑97/p.124
Jeon, J. A. NPO1‑7/p.117
NPO2‑125/p.171
NPO1‑98/p.125
Jeon, Pil‑Hyun M22‑50/p.249
M12‑25/p.211
M12‑17/p.211
Jeon, Sang June NPO2‑46/p.164
NPO1‑66/p.122
M11‑51/p.208
Jeon, Seongchae NPO1‑160/p.129
R05‑6/p.135
Jeon, Seong‑Su M22‑50/p.249
Jeon, Sungchae M12‑2/p.210
Jeon, Y. J. NPO1‑206/p.133
Jeong, Chiyoung M07‑5/p.198
M21‑14/p.241
Jeong, Dong‑Hyeok NPO1‑214/p.134
Jeong, Jieun M22‑22/p.247
Jeong, Jinhun M21‑1/p.240
Jeong, Jong Hwi M07‑5/p.198
N18‑1/p.112
M21‑14/p.241
Jeong, Man Hee R05‑5/p.135
R05‑15/p.136
R05‑51/p.139
R05‑33/p.137
R05‑42/p.138
R05‑38/p.138
R09‑1/p.158
Jeong, Min Soo NPO2‑93/p.168
Jeong, Sanghun R05‑37/p.138
Jeong, Soomin NPO2‑123/p.170
Jeong, Young Jun NPO2‑46/p.164
Jewett, Cybele NPO2‑34/p.163
Jha, Abhinav K.M21‑61/p.245
Ji, Changguo M23‑12/p.250
Ji, Young Hoon M18‑41/p.237
M18‑19/p.235
Jian, Yiqiang M17‑14/p.232
M04‑6/p.157
Jiang, Hao R05‑27/p.137
Jiang, Hua NPO1‑24/p.119
N12‑8/p.108
Jiang, Jianyong M11‑16/p.205
Jiang, Nianming M11‑52/p.208
M12‑1/p.209
Jiang, Wenqi NPO2‑115/p.170
Jiang, Xiaolei M17‑17/p.232
Jie, Wanqi R09‑7/p.158
R10‑7/p.159
Jimenez, Carmen NPO2‑76/p.167
NPO2‑73/p.167
Jimenez, Edward S.
N18‑3/p.112
Jin, Ge NPO2‑207/p.177
NPO2‑133/p.171
Jin, Kyeong Sik N27‑5/p.151
Jin, Kyung‑Chan M22‑20/p.247
Jin, Mingwu M18‑46/p.238
Jin, Pengchong M22‑25/p.247
Jin, Shih‑Chun M17‑26/p.233
Jin, Xin N25‑2/p.149
M17‑8/p.232
M11‑64/p.209
M15‑2/p.223
Jin, Yongjie M18‑45/p.237
M18‑43/p.237
Jo, Byeong‑Du M22‑50/p.249
M12‑25/p.211
M12‑17/p.211
Jo, Jaemoon M01‑1/p.155
Jo, Woo Jin M11‑29/p.206
NPO2‑24/p.162
M21‑1/p.240
Jodal, Lars M23‑7/p.249
Johansen, Tor Magnus NPO2‑211/p.177
NPO2‑210/p.177
Johansson, Jarkko M18‑23/p.236
M23‑10/p.250
Johansson, Kjell NPO1‑221/p.134
Johnson, Erik B.NPO2‑18/p.162
Johnson, Ian N46‑3/p.195
Johnson, James T.
NPO2‑9/p.161
Johnson, Lindsay C.
M11‑57/p.208
Johnson, Robert P.
N19‑1/p.145
Johnson, Tammie R06‑3/p.113
Johnson, Tim D.N38‑7/p.190
Johnstone, Carol HT1‑1/p.79
Johnstone, Russell NPO1‑22/p.119
Jokhovets, Lioubov M16‑46/p.230
M11‑28/p.206
NPO2‑176/p.175
Jones, Aimee N3‑6/p.89
Jones, Dominique E.
R13‑6/p.202
Jones, James K.N27‑6/p.151
Jones, John M10‑3/p.200
M18‑8/p.235
Jones, Judson M10‑6/p.200
Joo, Eunah NPO2‑85/p.167
NPO2‑61/p.166
Joo, Koan Sik NPO2‑46/p.164
NPO1‑66/p.122
Joram, Christian M11‑45/p.207
Jordan, Kelly A.N38‑3/p.190
R04‑6/p.95
R05‑8/p.135
Jordanov, Valentin T.
NPO2‑188/p.175
Joshirao, Pranav M.
NPO1‑176/p.131
NPO1‑177/p.131
Josselin, Michael N4‑1/p.89
Joti, Yasumasa NPO2‑134/p.171
Joung, Jinhun M16‑50/p.230
Jovanovic, Igor R11‑4/p.201
N34‑5/p.187
Joy, Ashley NPO2‑145/p.172
Joyce, Malcolm J.
N39‑2/p.190
N3‑5/p.89
Judenhofer, Martin S.
M05‑1/p.196
J1‑2/p.114
M09‑1/p.199
M21‑50/p.244
Judson, Daniel S.
NPO1‑136/p.128
N38‑4/p.190
Juha, Kalliopuska NPO1‑133/p.127
Julyan, Peter J.M17‑28/p.233
Jun, Insoo N31‑6/p.185
Jung, Aera NPO2‑230/p.178
NPO2‑123/p.170
Jung, Haijo M18‑41/p.237
NPO1‑138/p.128
Jung, Hyun Kyu NPO2‑156/p.173
Jung, HyunChul N42‑4/p.193
Jung, In‑Il NPO2‑86/p.168
Jung, Jin Ho M11‑9/p.204
M12‑40/p.212
M16‑35/p.229
M12‑46/p.213
M16‑45/p.230
M13‑10/p.215
Jung, Jiwoong M12‑40/p.212
M12‑46/p.213
M11‑9/p.204
Jung, Sung‑Hee R12‑4/p.202
Jung, YoungJun M11‑51/p.208
Junique, Antoine N22‑1/p.147
N22‑2/p.147
Juramy, Claire NPO1‑85/p.124
K
Kabuki, Shigeto NPO2‑122/p.171
N10‑2/p.106
M12‑10/p.210
M21‑9/p.240
Kachel, Maciej NPO1‑194/p.132
NPO1‑2/p.117
Kachelriess, M.R01‑6/p.93
Kaczmarz, Stephan M21‑60/p.244
Kaderka, Robert M21‑12/p.241
HT3‑4/p.81
Kadrmas, Dan J.M18‑59/p.239
Kagan, Harris M11‑41/p.207
Kagaya, Takeshi NPO1‑81/p.123
NPO1‑50/p.121
NPO1‑82/p.123
Kah, Dong‑Ha NPO1‑97/p.124
Kaibuki, Futoshi M12‑23/p.211
M23‑14/p.250
M20‑1/p.225
Kaiser, Franz M11‑69/p.209
Kaiser, Ralf NPO1‑22/p.119
Kaissas, Ioannis R05‑43/p.138
Kajetanowicz, Marcin M11‑61/p.208
Kajino, Fumiyoshi M13‑4/p.214
Kajiwara, Kentaro NPO2‑100/p.169
Kakuno, Hidekazu NPO1‑153/p.129
Kalliopuska, Juha J.
J4‑1/p.160
Kam, Soohwa M21‑49/p.244
M13‑21/p.215
Kamada, Kei NPO1‑50/p.121
NPO1‑81/p.123
N4‑8/p.90
NPO1‑175/p.130
NPO1‑185/p.131
NPO1‑35/p.120
NPO1‑53/p.121
M21‑51/p.244
N22‑6/p.148
NPO1‑80/p.123
N23‑4/p.148
NPO1‑67/p.122
NPO1‑152/p.129
N12‑5/p.107
N4‑6/p.90
NPO1‑49/p.121
NPO1‑44/p.120
N12‑3/p.107
M11‑35/p.206
NPO1‑41/p.120
NPO1‑55/p.121
M11‑15/p.205
NPO1‑82/p.123
Kamada, So NPO1‑209/p.133
Kamae, Tune N9‑4/p.105
Kameshima, Takashi N30‑3/p.153
NPO2‑134/p.171
Kametani, Isao N24‑5/p.149
Kaminaga, Shigeo M12‑29/p.211
Kamiya, Tomihiro M11‑21/p.205
M21‑5/p.240
M18‑35/p.237
Kamiyama, Takashi NPO1‑154/p.129
Kampmann, Reinhard N23‑6/p.148
N7‑2/p.91
Kanai, Yasukazu M11‑54/p.208
M12‑54/p.213
Kanaki, Kalliopi N23‑3/p.148
NPO2‑138/p.172
N45‑2/p.194
NPO1‑201/p.133
Kanda, Hiroki N36‑1/p.188
Kando, Masaki NPO2‑27/p.163
Kaneko, Daisuke N24‑7/p.149
Kaneko, Junichi H.
N34‑4/p.187
NPO1‑64/p.122
N4‑2/p.89
NPO1‑57/p.121
NPO1‑23/p.119
N36‑5/p.188
N28‑3/p.152
NPO2‑104/p.169
Kang, Bo‑Sun NPO1‑225/p.134
Kang, Dong‑Uk NPO1‑139/p.128
NPO1‑140/p.128
NPO1‑163/p.130
NPO2‑213/p.177
NPO1‑111/p.126
NPO1‑137/p.128
NPO1‑161/p.129
Kang, Han Gyu M12‑48/p.213
Kang, Heungsik R05‑37/p.138
Kang, Jihoon M13‑5/p.214
M16‑55/p.231
Kang, Joo Hyun M18‑19/p.235
Kang, Jungwon M21‑54/p.244
M21‑44/p.243
M21‑53/p.244
Kang, K. H. NPO1‑97/p.124
Kang, Kejun M18‑52/p.238
M15‑2/p.223
NPO1‑200/p.132
Kang, M. Y. NPO2‑74/p.167
Kang, Myung Joo Kang M22‑44/p.248
Kang, Sang Jun NPO1‑65/p.122
Kang, Taehoon NPO2‑223/p.178
NPO1‑10/p.118
Kang, Yeong‑Rok NPO1‑214/p.134
Kanno, Ikuo M12‑18/p.211
M12‑28/p.211
Kanno, Koki N2‑6/p.88
NPO1‑120/p.126
Kao, Chien‑Min M16‑56/p.231
M09‑2/p.199
M22‑16/p.246
M09‑6/p.200
NPO1‑87/p.124
M04‑7/p.157
Kapadia, Anuj M13‑24/p.216
Kaplon, Jan N14‑2/p.109
Kappler, Steffen G.
R12‑3/p.201
PC2‑1/p.97
Karakatsanis, Nicolas A.
M11‑42/p.207
M06‑2/p.197
Kargar, Alireza R04‑1/p.95
R14‑4/p.203
Karkour, Nabil N9‑7/p.105
Karlsson, Mikael M23‑31/p.251
M23‑32/p.251
Karonis, Nicholas HT4‑1/p.81
Karp, Joel S.M03‑1/p.156
J1‑7/p.114
M11‑36/p.206
M18‑36/p.237
M25‑2/p.257
Kasai, Hiroki N41‑2/p.192
Kasemsarn, Suthasinee M12‑4/p.210
Kasinski, Krzysztof NPO2‑209/p.177
N40‑5/p.191
Kasperl, Stefan N37‑3/p.189
Katagiri, Masaki NPO1‑211/p.133
Kataoka, Jun NPO1‑150/p.128
N11‑2/p.106
M11‑35/p.206
NPO1‑144/p.128
NPO1‑185/p.131
Kato, Chihiro NPO2‑175/p.174
Kato, Hiroki M18‑70/p.239
Kato, Katsuhiko M12‑54/p.213
M11‑54/p.208
Kato, Takuya N11‑2/p.106
NPO1‑150/p.128
Katoh, Norio M21‑19/p.241
Katsevich, Alexander M17‑16/p.232
Katsumata, Akihiro M18‑56/p.238
Kaul, Madhuri M11‑36/p.206
Kaushik, Sandeep M12‑50/p.213
Kavatsyuk, Myroslav NPO2‑203/p.176
Kavianipour, Hossein NPO2‑187/p.175
Kawabata, Tetsuya NPO2‑175/p.174
Kawabata, Yoshihiko M05‑5/p.196
Kawabata, Yuya NPO1‑205/p.133
Kawachi, Naoki M21‑5/p.240
M18‑35/p.237
M11‑21/p.205
NPO1‑155/p.129
N43‑6/p.193
NPO2‑43/p.164
Kawagoe, Kyotomo N35‑1/p.187
Kawaguchi, Hiroshi M12‑52/p.213
Kawaguchi, Noriaki N39‑7/p.191
NPO1‑189/p.132
N9‑4/p.105
N39‑6/p.190
N23‑5/p.148
NPO1‑165/p.130
NPO1‑208/p.133
NPO1‑205/p.133
NPO1‑19/p.118
NPO1‑25/p.119
NPO1‑170/p.130
NPO1‑49/p.121
Kawai, Hideyuki NPO2‑58/p.165
NPO1‑94/p.124
M11‑13/p.205
NPO1‑95/p.124
NPO1‑153/p.129
NPO1‑169/p.130
NPO1‑106/p.125
Kawai, Katsunori NPO2‑11/p.162
Kawakami, Kazunori M18‑57/p.238
Kawama, Daisuke NPO1‑120/p.126
Kawano, Takafumi N39‑6/p.190
N9‑4/p.105
Kawarabayashi, Jun NPO2‑10/p.161
NPO1‑220/p.134
NPO1‑51/p.121
NPO2‑11/p.162
Kawasaki, Takeo NPO1‑153/p.129
Kawasaki, Takuro NPO1‑211/p.133
Kawase, Morihiro NPO2‑100/p.169
NPO2‑101/p.169
Kawashima, Hiroki M21‑15/p.241
Kawrakow, Iwan M21‑17/p.241
Kay, Holger NPO2‑201/p.176
NPO2‑233/p.178
Kay, Rex N3‑2/p.89
Kaya, Can NPO1‑129/p.127
Kaye, William R.R01‑5/p.93
Kazanin, Vassily F.
NPO1‑37/p.120
Kazantsev, Ivan G.
M18‑31/p.236
Kazas, Ioannis N14‑6/p.109
Kazlowski, Poitr M12‑41/p.212
Keall, Paul M21‑10/p.241
Keat, Ying HT3‑10/p.81
Keereman, Vincent M16‑13/p.228
Keiderling, Uwe NPO1‑201/p.133
Keijzers, Mark M16‑3/p.227
Keijzers, Ronnie M16‑3/p.227
Keller, Sune H.M18‑32/p.236
M24‑6/p.257
Kemmerling, Guenter M11‑28/p.206
NPO1‑202/p.133
NPO2‑176/p.175
M16‑46/p.230
Kempe, Mathias M21‑11/p.241
Ken, Egli NPO1‑182/p.131
Kench, Peter L.M11‑49/p.208
Kenesei, Peter N12‑2/p.107
Keng, Pei Y.M05‑6/p.196
Kenney, Christopher J.
N30‑4/p.153
NPO2‑114/p.170
NPO2‑99/p.168
NPO2‑98/p.168
NPO2‑113/p.170
NPO2‑111/p.169
NPO2‑110/p.169
Kenny, Katharine M15‑8/p.224
Kenoyer, Aimee M14‑1/p.223
Keri, Tibor NPO1‑22/p.119
Kerr, Matthew M21‑4/p.240
Kestener, Pierre N1‑5/p.88
N44‑7/p.194
Ketchum, Wesley N44‑1/p.194
Khan, Nafisah NPO1‑193/p.132
Khan, Sajid NPO1‑24/p.119
R04‑7/p.95
Khaplanov, Anton NPO1‑213/p.134
NPO1‑201/p.133
N23‑7/p.148
Khare, Rahul M05‑4/p.196
Khaziev, Rinat M16‑16/p.
NPO2‑42/p.
Khiari, F. Z.NPO2‑1/p.161
NPO2‑62/p.166
Kieffer, Robert NPO1‑125/p.127
Kiener, Jurgen N9‑7/p.105
Kiessling, Fabian M16‑12/p.227
J2‑7/p.115
M12‑47/p.213
M12‑42/p.212
M11‑24/p.206
M17‑2/p.231
Kiff, Scott NPO1‑219/p.134
Kii, Toshiteru NPO1‑72/p.122
NPO2‑30/p.163
Kijewski, Marie F.
M16‑3/p.227
Kikuchi, Yohei M16‑59/p.231
Kikuzawa, Nobuhiro NPO1‑72/p.122
NPO2‑30/p.163
Kildea, J.NPO1‑192/p.132
Kim, Byung Il M23‑44/p.252
M18‑34/p.237
Kim, Byung‑Tae M13‑5/p.214
Kim, Byung Wook NPO1‑139/p.128
Kim, Chae‑Yong M23‑46/p.252
Kim, Chan Hyeong N45‑5/p.195
N29‑4/p.153
N11‑5/p.107
NPO1‑131/p.127
N18‑1/p.112
Kim, Chan Mi M18‑67/p.239
Kim, Chang Lyong M16‑25/p.228
M12‑44/p.213
M16‑7/p.227
NPO2‑231/p.178
M16‑10/p.227
Kim, Chang‑Jin M05‑6/p.196
Kim, Changjung NPO2‑216/p.177
Kim, Chan‑Hyeong R12‑4/p.202
Kim, Chankyu NPO1‑111/p.126
NPO1‑18/p.118
NPO1‑137/p.128
NPO1‑161/p.129
NPO1‑140/p.128
NPO1‑163/p.130
NPO1‑139/p.128
Kim, Cho‑Rong NPO1‑160/p.129
M12‑2/p.210
Kim, Dae‑Hong M12‑25/p.211
M22‑50/p.249
M12‑17/p.211
M16‑5/p.227
Kim, Daehoon M16‑41/p.229
Kim, Dae‑Kuk R05‑9/p.135
Kim, Do Hoon M23‑15/p.250
Kim, Dogyun NPO2‑85/p.167
Kim, Dohyun M21‑37/p.243
Kim, Dong Jin R05‑5/p.135
R05‑15/p.136
Kim, Dong Woon M21‑49/p.244
Kim, Donghwan M19‑6/p.225
Kim, Doris Y.NPO2‑135/p.172
Kim, Doyoon NPO2‑142/p.172
NPO1‑179/p.131
Kim, Ealgoo M16‑53/p.230
M16‑38/p.229
Kim, Eui Shin E.M18‑63/p.239
Kim, Eun Ju NPO2‑46/p.164
Kim, Eunhee NPO1‑124/p.127
Kim, Eunju NPO2‑85/p.167
Kim, Eunlim R09‑4/p.158
Kim, Geehyun N34‑6/p.187
Kim, Geon‑Bo N26‑1/p.150
N22‑7/p.148
Kim, Gi Dong R01‑5/p.93
NPO2‑86/p.168
Kim, Gibeom M16‑45/p.230
Kim, Gidong NPO2‑85/p.167
Kim, Gisub NPO1‑138/p.128
Kim, Gyuhee M16‑35/p.229
Kim, H. J. NPO1‑65/p.122
NPO1‑54/p.121
N12‑8/p.108
NPO1‑97/p.124
R04‑7/p.95
Kim, H. G. NPO1‑207/p.133
NPO1‑206/p.133
Kim, Hadong R05‑26/p.137
R14‑4/p.203
R04‑1/p.95
Kim, Han Soo R05‑5/p.135
R09‑1/p.158
R05‑33/p.137
R05‑24/p.137
R05‑51/p.139
R05‑42/p.138
R05‑38/p.138
R05‑15/p.136
Kim, Han Sung NPO1‑131/p.127
N29‑4/p.153
N11‑5/p.107
Kim, Hee Joung M11‑53/p.208
M23‑3/p.249
Kim, Hee Yeun NPO2‑197/p.176
Kim, Heejin M18‑41/p.237
Kim, Heejong M09‑6/p.200
M09‑2/p.199
NPO1‑87/p.124
M16‑56/p.231
M04‑7/p.157
Kim, Hee‑Joung M12‑17/p.211
M12‑7/p.210
M23‑23/p.251
M22‑50/p.249
M16‑5/p.227
M12‑25/p.211
M11‑58/p.208
M23‑25/p.251
M18‑34/p.237
Kim, Heonjoo M21‑37/p.243
Kim, Ho Dong R14‑2/p.203
Kim, Ho Kyung NPO1‑212/p.133
M21‑49/p.244
M13‑21/p.215
M21‑55/p.244
M13‑25/p.216
Kim, Hong J.NPO1‑24/p.119
Kim, Hyo‑Jin NPO1‑214/p.134
Kim, Hyoungtaek NPO1‑140/p.128
NPO1‑139/p.128
NPO1‑161/p.129
NPO1‑163/p.130
NPO1‑111/p.126
NPO2‑213/p.177
NPO1‑137/p.128
NPO1‑225/p.134
Kim, Hyun Suk R05‑46/p.139
Kim, Hyunduk NPO1‑139/p.128
NPO1‑225/p.134
NPO1‑140/p.128
NPO2‑213/p.177
Kim, Hyunho NPO2‑85/p.167
Kim, Hyun‑Il M21‑1/p.240
M11‑29/p.206
M16‑50/p.230
NPO2‑24/p.162
Kim, Hyunji NPO1‑138/p.128
Kim, Hyunok NPO1‑212/p.133
Kim, J.H. NPO2‑74/p.167
Kim, Jae Cheon R01‑5/p.93
Kim, Jae Hoon R05‑46/p.139
Kim, Jae Hwan NPO2‑14/p.162
Kim, Jae Seung M23‑22/p.251
Kim, Jaegon M12‑22/p.211
Kim, Jehan N27‑5/p.151
Kim, Jeung Kee NPO1‑214/p.134
Kim, Ji Eun NPO2‑123/p.170
Kim, Ji Hye M17‑35/p.233
M18‑3/p.234
M18‑49/p.238
Kim, Jin Su M18‑34/p.237
M23‑3/p.249
Kim, Jin Sung M21‑18/p.241
Kim, Jinmyoung NPO2‑216/p.177
Kim, JinWeon N42‑4/p.193
Kim, Jinyu N20‑4/p.146
Kim, Jong Guk M18‑34/p.237
M12‑46/p.213
M12‑40/p.212
NPO2‑46/p.164
Kim, Jong Hun M23‑33/p.251
M23‑34/p.251
Kim, Jong Yeol NPO2‑156/p.173
Kim, Jong‑Boo NPO1‑160/p.129
Kim, Jong‑Bum R12‑4/p.202
Kim, Jongguk M11‑51/p.208
Kim, Jong‑Min NPO2‑46/p.164
Kim, Jongsuk M21‑53/p.244
Kim, Jong‑Won NPO1‑124/p.127
Kim, Jong‑Yul NPO1‑163/p.130
NPO1‑140/p.128
NPO2‑213/p.177
NPO1‑161/p.129
NPO1‑139/p.128
NPO1‑111/p.126
NPO1‑225/p.134
NPO1‑137/p.128
NPO1‑191/p.132
NPO1‑212/p.133
Kim, Joo Young M21‑14/p.241
Kim, Joong Hyun M23‑46/p.252
Kim, Juhyun N42‑4/p.193
Kim, Jung H.N6‑5/p.91
Kim, Jung Sun M23‑22/p.251
Kim, Jung Young NPO2‑46/p.164
Kim, Jung‑Ha M19‑8/p.225
Kim, Jungmin NPO1‑138/p.128
Kim, Kihyun R09‑4/p.158
Kim, Kum Bae M18‑41/p.237
Kim, Kwangdon M16‑50/p.230
Kim, Kwang‑Woo N27‑5/p.151
Kim, Kyeong Min M18‑34/p.237
M16‑21/p.228
M23‑3/p.249
M18‑19/p.235
M22‑44/p.248
M23‑44/p.252
Kim, Kyeong Yun M17‑34/p.233
Kim, Kyeongmin M11‑51/p.208
Kim, KyeongSuk N42‑4/p.193
Kim, Kyeung Dong M23‑15/p.250
Kim, Kyong‑Woo M22‑39/p.248
Kim, Kyu Bom M16‑35/p.229
Kim, Kyung Min M12‑46/p.213
M12‑40/p.212
Kim, Kyung Sang M15‑4/p.224
Kim, Kyung‑Mann M23‑17/p.250
Kim, M.J. R05‑45/p.139
Kim, Me Young M21‑57/p.244
Kim, Min Ho M16‑21/p.228
Kim, Min Suk NPO2‑89/p.168
Kim, Minbin M21‑56/p.244
Kim, Minho M11‑51/p.208
Kim, Mi‑Sook M18‑41/p.237
Kim, Myeongjin NPO1‑124/p.127
Kim, Myoung Sub NPO1‑66/p.122
Kim, Myung Soo NPO1‑140/p.128
NPO1‑139/p.128
NPO1‑111/p.126
NPO1‑163/p.130
NPO2‑213/p.177
NPO1‑137/p.128
NPO1‑161/p.129
Kim, Pilsu R09‑4/p.158
Kim, Ryun Kyung M12‑2/p.210
NPO1‑160/p.129
Kim, S.Y. R05‑45/p.139
Kim, Sang Eun M23‑46/p.252
Kim, Sangsu M11‑9/p.204
R09‑4/p.158
M16‑35/p.229
M12‑40/p.212
Kim, Seok Ki M21‑64/p.245
Kim, Seon Geun NPO1‑60/p.122
M21‑57/p.244
Kim, Seong‑Yun R04‑2/p.95
Kim, Si Yun M16‑37/p.229
Kim, Soo Mee M12‑16/p.211
M17‑6/p.231
Kim, Sug‑Whan NPO2‑123/p.170
NPO1‑98/p.125
Kim, Sung H.NPO1‑24/p.119
Kim, Sung Won M21‑37/p.243
Kim, SungHoon N18‑1/p.112
N45‑5/p.195
Kim, Sunghwan NPO1‑54/p.121
N12‑8/p.108
Kim, SunHee M22‑44/p.248
Kim, Suyoung R04‑1/p.95
Kim, Tae Hyo NPO2‑154/p.173
Kim, Tae Woo M21‑55/p.244
Kim, Taejoo NPO1‑191/p.132
Kim, Woo Hyun M23‑22/p.251
Kim, Y. K. R05‑45/p.139
Kim, Yeongduk NP1‑2/p.87
Kim, Ye‑Seul M12‑7/p.210
Kim, Yewon NPO1‑140/p.128
NPO1‑137/p.128
NPO1‑163/p.130
NPO1‑18/p.118
NPO1‑139/p.128
NPO1‑161/p.129
NPO2‑213/p.177
NPO1‑111/p.126
Kim, Yong Hak NPO2‑85/p.167
Kim, Yong Kyun NPO2‑86/p.168
R01‑5/p.93
Kim, Yonghak NPO2‑86/p.168
Kim, Yong‑Hamb N22‑7/p.148
Kim, Yongkwon M21‑1/p.240
M16‑50/p.230
Kim, YongKyun NPO2‑85/p.167
Kim, Young NPO2‑216/p.177
Kim, Young Jae M16‑57/p.231
Kim, Young Jin NPO2‑85/p.167
Kim, Young Soo R05‑51/p.139
R05‑5/p.135
R09‑1/p.158
R05‑33/p.137
R05‑42/p.138
R05‑24/p.137
R05‑38/p.138
Kim, Young Woong NPO2‑156/p.173
Kim, Youngduk N20‑4/p.146
Kim, Young‑Jin NPO2‑85/p.167
Kim, Youngju NPO1‑191/p.132
Kim, Youngsoo R05‑15/p.136
Kim, Young‑Su NPO1‑131/p.127
Kim, Yun‑Seok R05‑9/p.135
Kimura, Akinori N18‑4/p.112
HT3‑8/p.81
Kimura, Hiroyuki M12‑10/p.210
Kimura, Masashi M12‑28/p.211
Kimura, Yasuyuki M12‑52/p.213
Kinahan, Paul E. M12‑27/p.211
M05‑4/p.196
M13‑11/p.215
M23‑8/p.249
M21‑29/p.242
M13‑30/p.216
M17‑6/p.231
King, Andrew P.M18‑5/p.234
King, Michael JM18‑8/p.235
NPO2‑21/p.162
King, Quentin N27‑8/p.151
Kioussis, Nicholas R03‑6/p.94
Kirchgessner, Manfred NPO2‑105/p.169
N33‑7/p.186
Kirihara, Yoichi N30‑3/p.153
M14‑4/p.223
Kirstein, Oliver NPO1‑201/p.133
N23‑3/p.148
Kishimoto, Aya N11‑2/p.106
NPO1‑150/p.128
Kishimoto, Yuji NPO1‑121/p.126
N28‑7/p.152
N10‑2/p.106
NPO2‑122/p.171
Kislat, Fabian N9‑6/p.105
Kiss, Mozsi N9‑4/p.105
N39‑6/p.190
Kistenev, Edward N26‑3/p.150
Kitagawa, Kakuya M23‑42/p.252
Kitagawa, Yasuhisa N16‑7/p.111
Kitahara, Masaru M12‑28/p.211
Kitamura, Keishi M12‑59/p.214
Kittelmann, Thomas NPO2‑138/p.172
N23‑3/p.148
N45‑2/p.194
Kiyanagi, Yoshiaki NPO1‑154/p.129
Kjaer, Andreas M18‑32/p.236
Kladiva, Eduard N43‑7/p.193
Klanner, Robert NPO2‑151/p.173
R07‑1/p.113
N30‑1/p.153
Klausen, Thomas L.
M18‑29/p.236
Kleczek, Rafal N40‑5/p.191
NPO2‑209/p.177
Klein, Benjamin D.
NPO1‑222/p.134
Kleines, Harald NPO2‑176/p.175
Kline, Craig NPO1‑203/p.133
Klinkby, Esben N45‑2/p.194
Klintenberg, Mattias R05‑2/p.135
Kluge, Alexander N14‑2/p.109
Kluit, Ruud N14‑5/p.109
Klyuev, Alexander N14‑7/p.109
N30‑1/p.153
Kmiecik, Maria NPO1‑21/p.118
Kmon, Piotr N14‑3/p.109
Knapitsch, Arno R.
J2‑4/p.115
N36‑6/p.188
Ko, Guen Bae M12‑48/p.213
M16‑39/p.229
M16‑37/p.229
M21‑46/p.243
M16‑44/p.230
Ko, In Ok M23‑44/p.252
Ko, Yeon Ju NPO2‑85/p.167
Kobashi, Keiji M16‑2/p.227
M18‑30/p.236
Kobayashi, Kazuho N30‑3/p.153
M14‑4/p.223
NPO1‑11/p.118
Kobayashi, Nobuyuki NPO1‑59/p.121
Kobayashi, Shigeharu M13‑4/p.214
Kobayashi, Takahiro M21‑51/p.244
Kobayashi, Tetsuya M12‑59/p.214
Kobychev, Vladislav V.
NPO2‑66/p.166
Kobylecki, Christopher M17‑28/p.233
Koch, Andreas NPO2‑108/p.169
N30‑2/p.153
N45‑1/p.194
NPO2‑145/p.172
Kochurikhin, Vladimir V.
NPO1‑82/p.123
N22‑6/p.148
N4‑8/p.90
Kocsis, Menyhert NPO2‑106/p.169
Koczoń, Piotr N16‑3/p.110
Kodama, Satoshi NPO1‑106/p.125
NPO1‑169/p.130
NPO1‑95/p.124
M11‑13/p.205
NPO1‑94/p.124
Kodys, Peter N41‑4/p.192
Koehler, William R05‑26/p.137
R04‑1/p.95
Koenig, Wolfgang N16‑3/p.110
Koesters, Thomas M13‑7/p.214
Koh, Geon M12‑60/p.214
Kohara, Ryota M22‑34/p.247
Kohno, Toshiyuki M07‑2/p.198
Kohriki, Takashi N2‑2/p.88
NPO2‑220/p.178
Koi, Tatsumi NPO2‑175/p.174
Koike, Akifumi R06‑5/p.113
R05‑18/p.136
R03‑2/p.94
Koizumi, Hitoshi NPO1‑57/p.121
N34‑4/p.187
Kojima, Kouji NPO2‑175/p.174
Kok, Angela J4‑5/p.160
N28‑8/p.152
RD2‑4/p.83
Kokubun, Motohide M21‑5/p.240
M11‑21/p.205
Kolb, Armin M11‑30/p.206
Kolbasin, Vyacheslav NPO1‑168/p.130
Kole, Merlin N39‑6/p.190
N9‑4/p.105
Kollmann, Tobias NPO1‑202/p.133
Kolstein, Machiel R06‑6/p.113
Kolthammer, Jeffrey M16‑19/p.228
Koltick, David NPO2‑49/p.165
NPO1‑148/p.128
M12‑5/p.210
Kolya, Scott N23‑3/p.148
Komarov, Sergey M16‑23/p.228
M11‑47/p.207
M22‑26/p.247
Komatsu, Yusuke NPO1‑120/p.126
Komura, Shotaro M12‑10/p.210
N28‑2/p.152
NPO2‑122/p.171
N10‑2/p.106
Kon, Tatsuya M12‑53/p.213
Kong, Chang‑Bae M23‑44/p.252
Kong, Minnan NPO2‑69/p.166
N9‑3/p.105
Konno, Chikara NPO1‑26/p.119
Konorov, Igor N33‑2/p.186
Kopach, Oleh R05‑3/p.135
Korbly, Stephen E.
N37‑1/p.189
Korcyl, Grzegorz M11‑61/p.208
Korjik, Mikhail N32‑4/p.186
Kormoll, Thomas NPO2‑64/p.166
M21‑11/p.241
M19‑3/p.224
Korn, Georg HT1‑5/p.79
Kornhuber, Johannes M08‑1/p.198
Korntheuer, Michael NPO2‑169/p.174
Korpar, Samo NPO1‑153/p.129
NPO1‑110/p.125
Kortner, Oliver N44‑5/p.194
N40‑8/p.191
Kortner, Sandra N44‑5/p.194
Kosciesza, Dirk R02‑3/p.94
R12‑6/p.202
Koshimizu, Masanori NPO1‑39/p.120
Koslowsky, Vernon N3‑6/p.89
Kosonen, Jari P.M21‑55/p.244
Kostamo, Esa N34‑3/p.187
Kostamo, Jari N34‑3/p.187
Kostamo, Pasi N34‑3/p.187
Koster, Ulli NPO2‑79/p.167
Kotasidis, Fotis A.
M23‑30/p.251
M17‑28/p.233
M17‑29/p.233
M23‑37/p.252
Kou, Huamin NPO1‑13/p.118
Koubar, Khodor M12‑24/p.211
Kouzes, Richard T.
N39‑1/p.190
Kowarschik, Markus M18‑51/p.238
Kowash, Benjamin NPO2‑35/p.163
Koybasi, Ozhan R11‑4/p.201
Kozlov, Dmitry N32‑4/p.186
Kozlowski, Piotr M11‑26/p.206
M21‑34/p.243
M16‑42/p.229
Kraeber‑Bodere, Francoise M23‑20/p.250
Krakowski, Tomasz N20‑2/p.146
Krapohl, David R05‑10/p.136
Kraus, Vaclav N3‑3/p.89
Krawczynski, Henric N9‑6/p.105
Krebs, Kenneth M
N25‑6/p.150
Krings, Thomas N30‑7/p.154
N30‑8/p.154
Krishnamoorthy, Srilalan M11‑36/p.206
M03‑1/p.156
M18‑36/p.237
Krishnan, Sunil M21‑7/p.240
Krizan, Peter NPO1‑110/p.125
NPO1‑153/p.129
Kroeger, Richard A
NPO1‑142/p.128
Kroha, Hubert N44‑5/p.194
N40‑8/p.191
Kron, Tomas RD2‑5/p.83
Kross, Brian NPO2‑54/p.165
Kroupa, Martin NPO1‑135/p.127
RD1‑1/p.82
Krucker, Sam R05‑48/p.139
Krueger, Hans N14‑7/p.109
N30‑1/p.153
Kruger, Hans NPO1‑6/p.117
Kruth, Andre N14‑5/p.109
Krzysiek, M.NPO1‑21/p.118
Kubo, Hidetoshi N10‑2/p.106
M12‑10/p.210
N28‑2/p.152
NPO2‑122/p.171
N21‑6/p.147
Kubo, Naoki M18‑30/p.236
Kucewicz, Wojciech NPO2‑75/p.167
M16‑47/p.230
Kuczewski, Anthony J.
N30‑8/p.154
Kudchadker, Rajat RD2‑1/p.83
Kudo, Hiroyuki M05‑7/p.196
Kudo, Togo N30‑3/p.153
M14‑4/p.223
NPO1‑11/p.118
Kudryavtsev, Vitaly A.
NPO2‑33/p.163
Kuehl, Thorsten N7‑2/p.91
N23‑6/p.148
Kuehn, Susanne N41‑4/p.192
NPO1‑173/p.130
Kuehn, Wolfgang N33‑2/p.186
Kugathasan, Thanushan N22‑1/p.147
N22‑2/p.147
Kugel, Andreas N33‑7/p.186
Kulessa, Pawel NPO2‑176/p.175
Kume, Naoto NPO1‑162/p.130
Kumita, Tetsuro NPO1‑153/p.129
Kumogoshi, Daisuke NPO1‑169/p.130
NPO1‑106/p.125
NPO1‑95/p.124
NPO1‑94/p.124
M11‑13/p.205
Kuncic, Zdenka M07‑7/p.198
M19‑8/p.225
Kunieda, Etsuo M21‑9/p.240
Kunkel, Jochen NPO1‑129/p.127
Kuparinen, Kai NPO2‑119/p.170
Kupinski, Matthew A.
M21‑61/p.245
Kurashige, Hisaya N18‑4/p.112
Kurashima, Satoshi NPO1‑210/p.133
Kurata, Noritaka NPO1‑195/p.132
Kureta, Masatoshi NPO1‑195/p.132
Kuribayashi, Hideto M05‑5/p.196
Kuroda, Hidehiko NPO1‑162/p.130
Kuroda, Yoshikatsu N25‑5/p.150
Kurokawa, Chie M21‑9/p.240
Kurosawa, Shunsuke NPO1‑50/p.121
NPO1‑49/p.121
N4‑6/p.90
NPO1‑81/p.123
N4‑4/p.90
NPO1‑55/p.121
N23‑4/p.148
N12‑5/p.107
NPO1‑53/p.121
NPO2‑122/p.171
M11‑35/p.206
NPO1‑67/p.122
NPO1‑34/p.119
NPO1‑70/p.122
NPO1‑80/p.123
N22‑6/p.148
NPO1‑44/p.120
N10‑2/p.106
NPO1‑185/p.131
NPO1‑82/p.123
N4‑8/p.90
Kurz, Christopher HT3‑4/p.81
M21‑12/p.241
M07‑3/p.198
Kusnoto, Budi M12‑33/p.212
Kuster, Markus NPO2‑145/p.172
NPO2‑108/p.169
N45‑1/p.194
N30‑2/p.153
Kuvvetli, Irfan R05‑30/p.137
R05‑50/p.139
Kuwabara, Hitoshi N34‑4/p.187
Kuwert, Torsten M08‑1/p.198
Kuznetsov, Gennady N.
NPO1‑37/p.120
Kwak, Jungwon M21‑23/p.242
Kwon, Inyong NPO2‑223/p.178
NPO1‑10/p.118
Kwon, Oh‑Kyung NPO1‑160/p.129
Kwon, Sun Il M16‑44/p.230
M21‑50/p.244
M16‑39/p.229
M16‑37/p.229
Kwon, Yongil N26‑3/p.150
Kwon, Young‑Kwan NPO2‑85/p.167
Kwong, John NPO2‑21/p.162
Kyle, Kevin R14‑6/p.203
Kyme, Andre M18‑10/p.235
M18‑11/p.235
M10‑2/p.200
Kyme, Andre Z.M13‑15/p.215
M18‑26/p.236
M18‑13/p.235
L
La Riviere, Patrick J.
M22‑48/p.249
M23‑27/p.251
PC2‑3/p.97
M19‑7/p.225
M02‑4/p.155
La Rocca, Paola N22‑1/p.147
La Rosa, Alessandro N13‑2/p.108
Labanti, Claudio M21‑45/p.243
N14‑8/p.109
Labov, Simon N11‑6/p.107
NPO2‑22/p.162
Lacalamita, Nicola N2‑1/p.88
Lacasta, Carlos NPO2‑177/p.175
M11‑41/p.207
M21‑24/p.242
M21‑22/p.242
M07‑4/p.198
M11‑44/p.207
NPO2‑72/p.166
Lacy, Jeffrey L.NPO1‑215/p.134
NPO1‑218/p.134
NPO1‑217/p.134
Ladefoged, Claes N.
M18‑32/p.236
Laforest, Richard M18‑14/p.235
Lage, Eduardo M16‑26/p.228
M13‑2/p.214
M03‑5/p.156
M18‑44/p.237
Lagerburg, Vera M18‑29/p.236
Lahorgue, Jerme L.
M18‑54/p.238
Lai, Adriano NPO1‑108/p.125
Lai, Xiao‑Chun M14‑8/p.223
R06‑1/p.113
Lai, Yun‑Tsung NPO2‑193/p.176
Lajoie, John N26‑3/p.150
Lalik, RafąN16‑3/p.110
Lall, Terry R06‑3/p.113
Lalleman, Anne‑Sophie J3‑6/p.116
Lamanna, Gianluca NPO2‑196/p.176
NPO2‑204/p.176
N43‑3/p.193
Lamare, Frederic M23‑29/p.251
M23‑36/p.251
Lambropoulos, Charalambos P.
R05‑43/p.138
N14‑6/p.109
Lami, Stefano N43‑3/p.193
Lampert, Marie‑Odile NPO1‑183/p.131
N30‑5/p.153
NPO2‑95/p.168
Lan, Kejian A.M16‑54/p.230
Lange, David J.NPO2‑37/p.164
N18‑7/p.112
Lange, Sabine N30‑1/p.153
M21‑60/p.244
N30‑5/p.153
Lange, Soeren N33‑2/p.186
Langeveld, Willem G.
N37‑7/p.189
Langlois, Florent NPO2‑102/p.169
Lankes, Konrad M05‑2/p.196
Lanza, Richard C.
NPO1‑105/p.125
Laptev, Alexander B.
N7‑4/p.92
Laquerriere, Patrice M12‑24/p.211
Larsen, Nicole N3‑7/p.89
Larsen, Rasmus M18‑40/p.237
Larsson, Anne M23‑32/p.251
M23‑31/p.251
M18‑47/p.238
Lascar, D N38‑1/p.189
Lau, Frances W.M11‑20/p.205
M25‑4/p.258
Laubach, Mitchell A.
NPO2‑67/p.166
N36‑8/p.188
NPO1‑79/p.123
Laubis, Christian N34‑3/p.187
Lauf, Thomas N41‑3/p.192
Laurent, Philippe R05‑50/p.139
Lauritsch, Guenter M18‑18/p.235
Lauze, Francois M18‑32/p.236
Lavietes, Anthony N39‑2/p.190
Lavrijsen, Wim T.
N18‑4/p.112
Law, Ian M18‑32/p.236
Law, Marilyn P.M23‑38/p.252
Le Fur, Emmanuelle M21‑28/p.242
Le Goff, Jean‑Marie H.
NPO2‑129/p.171
Le Loirec, Cindy M22‑49/p.249
M23‑7/p.249
Le Provost, Herve N1‑5/p.88
N44‑7/p.194
Lebbolo, Herve NPO1‑85/p.124
Lebedev, Valentin N.
NPO1‑187/p.131
NPO1‑188/p.131
Lecci, Stefano N42‑5/p.193
Leclercq, Nicolas NPO2‑102/p.169
Lecomte, Roger M11‑59/p.208
M11‑60/p.208
Lecoq, Paul N36‑6/p.188
J2‑4/p.115
J1‑6/p.114
N8‑5/p.92
M11‑4/p.204
Ledoux, Robert J.
N37‑1/p.189
Lee, Adam O.R07‑2/p.113
R05‑31/p.137
Lee, Andrew RD2‑1/p.83
Lee, Bongsoo NPO1‑60/p.122
NPO1‑58/p.121
Lee, Brian J.M06‑8/p.197
Lee, Byeong‑No NPO2‑5/p.161
NPO2‑4/p.161
NPO2‑6/p.161
Lee, Byung Cheol NPO2‑7/p.161
NPO2‑4/p.161
NPO2‑5/p.161
NPO2‑6/p.161
Lee, Byung Chul M23‑46/p.252
Lee, Byung N.NPO2‑7/p.161
Lee, C. H. R05‑45/p.139
Lee, Chae Deok M21‑41/p.243
Lee, Chae Young M11‑29/p.206
M21‑1/p.240
NPO2‑24/p.162
Lee, Cheol Soo NPO2‑46/p.164
Lee, Choong Hun R05‑46/p.139
Lee, Daehee NPO1‑161/p.129
NPO1‑139/p.128
NPO2‑213/p.177
NPO1‑137/p.128
NPO1‑140/p.128
NPO1‑163/p.130
NPO1‑111/p.126
Lee, Dianne E.M18‑12/p.235
Lee, Dong Hoon M22‑45/p.248
M22‑46/p.248
Lee, Dong Soo M19‑4/p.224
M18‑63/p.239
Lee, Eun Joong NPO1‑140/p.128
Lee, Haejun M12‑60/p.214
Lee, Hakjae M21‑53/p.244
M21‑54/p.244
M16‑50/p.230
Lee, Han Rim NPO1‑131/p.127
Lee, Hee Chul NPO2‑154/p.173
Lee, Hee‑Sin M22‑39/p.248
Lee, Ho‑Young M22‑44/p.248
M23‑46/p.252
Lee, Hye Jin N22‑7/p.148
Lee, Hye Young NPO1‑7/p.117
NPO2‑125/p.171
Lee, Hye‑Young NPO1‑98/p.125
Lee, HyoSang NPO2‑85/p.167
Lee, In Joo M23‑22/p.251
Lee, Jae Sung M18‑63/p.239
HY1‑1/p.97
M19‑4/p.224
M16‑37/p.229
M21‑64/p.245
M12‑16/p.211
M16‑44/p.230
M17‑34/p.233
M16‑51/p.230
M21‑46/p.243
M12‑48/p.213
M25‑5/p.258
M16‑39/p.229
Lee, Jaison N20‑4/p.146
Lee, Ji Yun R05‑7/p.135
Lee, Jian M.NPO1‑24/p.119
Lee, Jik NPO1‑98/p.125
NPO2‑123/p.170
N31‑5/p.185
NPO1‑7/p.117
NPO2‑125/p.171
M21‑56/p.244
Lee, Jiseoc M07‑5/p.198
M21‑18/p.241
M21‑23/p.242
Lee, Jong Man NPO2‑60/p.166
Lee, Jongha M12‑14/p.210
Lee, Jong‑Min M18‑67/p.239
Lee, Joo Hee N22‑7/p.148
Lee, Joo Young N22‑7/p.148
Lee, Ju Hahn NPO2‑86/p.168
Lee, Juhee N32‑7/p.186
Lee, Jung Woo NPO2‑61/p.166
NPO2‑85/p.167
Lee, K.B. NPO2‑60/p.166
Lee, Kang‑Ho NPO2‑216/p.177
Lee, Keum Sil M18‑7/p.234
Lee, Ki Soo NPO2‑61/p.166
NPO2‑85/p.167
Lee, Kisung M21‑54/p.244
R02‑1/p.93
R13‑3/p.202
J4‑3/p.160
M11‑51/p.208
M21‑53/p.244
M16‑50/p.230
R05‑28/p.137
R09‑3/p.158
R13‑5/p.202
M21‑1/p.240
Lee, Kug‑Seung N27‑5/p.151
Lee, Kyo Cheol NPO2‑46/p.164
Lee, Kyong Sei NPO2‑61/p.166
N19‑5/p.145
Lee, Kyung Sei NPO2‑85/p.167
Lee, Manwoo R05‑37/p.138
NPO1‑214/p.134
Lee, Min Kie NPO2‑60/p.166
Lee, Min Kyu N22‑7/p.148
Lee, Min Sun M25‑5/p.258
M16‑44/p.230
Lee, Ming‑Wei M11‑38/p.207
M13‑18/p.215
Lee, Minji M12‑31/p.212
Lee, Mo Sung NPO1‑84/p.123
Lee, Nam Ho NPO2‑156/p.173
Lee, Nanho NPO2‑23/p.162
R05‑37/p.138
Lee, Sang Han NPO2‑60/p.166
Lee, Sanghyeb M23‑11/p.250
M17‑4/p.231
Lee, Sangwon M16‑55/p.231
M16‑35/p.229
M16‑41/p.229
Lee, Se Byeong M07‑5/p.198
M21‑57/p.244
M21‑14/p.241
M21‑23/p.242
Lee, Se Hyung N45‑5/p.195
Lee, Sehwook N13‑6/p.108
Lee, SeongDeok M12‑14/p.210
Lee, Seung Hak M23‑34/p.251
M23‑33/p.251
Lee, Seung Kyu R14‑2/p.203
Lee, Seung Wook NPO1‑191/p.132
Lee, Seungjoon NPO2‑52/p.165
NPO2‑54/p.165
Lee, Seungwan M23‑23/p.251
M23‑25/p.251
Lee, Songkyo NPO2‑61/p.166
NPO2‑85/p.167
Lee, Soo‑Jin M22‑22/p.247
Lee, Sooyeol M12‑22/p.211
Lee, Suhyun N19‑5/p.145
Lee, Sung Hyun M18‑41/p.237
Lee, Sung Joo M21‑55/p.244
Lee, Tae‑Bum M12‑2/p.210
NPO1‑160/p.129
Lee, Taek‑Soo M13‑32/p.216
M10‑4/p.200
Lee, Taewon M20‑8/p.225
M12‑38/p.212
Lee, Taewoong R05‑35/p.137
Lee, Won Ho M16‑21/p.228
Lee, Wonho M18‑34/p.237
M23‑44/p.252
R05‑35/p.137
R03‑5/p.94
Lee, Won‑Hyung M12‑17/p.211
Lee, Yong‑Jin M12‑25/p.211
Lee, Young Sub M18‑34/p.237
M16‑21/p.228
Lee, Young‑Jin M16‑5/p.227
M12‑17/p.211
Lee, Younjeong M21‑18/p.241
Lee, Yuan J.NPO1‑24/p.119
Lee, Yu‑Lin M11‑38/p.207
Legeyt, Benjamin M18‑36/p.237
Legou, Philippe NPO1‑61/p.122
Lehman, Eberhard N39‑8/p.191
Lehnert, Adrienne L.
M11‑25/p.206
M03‑4/p.156
M25‑3/p.258
Lehti, Jussi NPO2‑119/p.170
Lehtolainen, Arto NPO2‑119/p.170
Leite, Marco NPO2‑87/p.168
Leith, David W.NPO1‑157/p.129
N43‑1/p.193
Lejay, Julien NPO1‑197/p.132
Leluc, C. NPO2‑69/p.166
Leluc, Catherine N9‑3/p.105
Lemarechal, Yannick M13‑8/p.215
M21‑28/p.242
Leng, Shuai PC1‑5/p.97
Lenti, Massimo N43‑3/p.193
Leonardi, Emanuele NPO2‑131/p.171
L’Erario, Alessia NPO1‑126/p.127
Lerch, Michael L.
NPO2‑57/p.165
RD2‑9/p.83
NPO2‑51/p.165
N19‑4/p.145
M21‑35/p.243
N28‑8/p.152
NPO2‑56/p.165
HT3‑10/p.81
RD1‑9/p.82
NPO2‑44/p.164
RD2‑8/p.83
HT3‑9/p.81
M11‑46/p.207
NPO2‑55/p.165
NPO2‑48/p.164
Lerche, Christoph W.
M12‑42/p.212
M11‑32/p.206
M11‑70/p.209
Leroy, Claude N43‑7/p.193
Letang, Jean‑Michel M21‑31/p.242
Lettry, Jacques NPO2‑96/p.168
Levand, A. F.N38‑1/p.189
Levin, Craig S.M21‑38/p.243
M06‑8/p.197
M16‑32/p.229
M03‑6/p.156
J1‑8/p.114
M16‑24/p.228
M11‑20/p.205
M16‑38/p.229
J3‑2/p.115
M04‑3/p.157
M11‑18/p.205
M16‑33/p.229
M25‑4/p.258
M16‑53/p.230
M12‑44/p.213
M22‑23/p.247
Levinta, Mariana NPO1‑69/p.122
Levit, Dmytro N33‑2/p.186
Lewellen, Thomas K
M25‑6/p.258
M09‑5/p.200
M11‑25/p.206
Lewis, Emma M18‑4/p.234
Lewis, James M12‑43/p.212
Li, Baicheng NPO1‑91/p.124
Li, Chan M13‑28/p.216
Li, Cheng NPO1‑118/p.126
Li, Chenguang N7‑1/p.91
Li, Chenhui NPO1‑91/p.124
Li, G N38‑1/p.189
Li, Handong R06‑2/p.113
R13‑7/p.202
Li, Hao M17‑1/p.231
Li, Hongdi M23‑26/p.251
M11‑10/p.204
M18‑2/p.234
M23‑4/p.249
Li, Hongming N40‑2/p.191
Li, Jia M08‑6/p.199
Li, Jian Min NPO2‑206/p.177
NPO2‑212/p.177
NPO1‑200/p.132
NPO1‑174/p.130
NPO2‑19/p.162
N40‑2/p.191
Li, Jiang NPO1‑13/p.118
Li, Jin NPO1‑199/p.132
R03‑6/p.94
Li, Jing Y.N23‑8/p.148
Li, Kaiyang M11‑46/p.207
Li, Ke M11‑47/p.207
M16‑23/p.228
M22‑26/p.247
Li, L. NPO2‑69/p.166
Li, Liang M13‑28/p.216
M20‑4/p.225
M17‑22/p.233
M22‑38/p.248
M11‑64/p.209
M18‑16/p.235
Li, Lihong M22‑41/p.248
Li, Lin M11‑5/p.204
Li, Lu N9‑3/p.105
Li, Quanzheng M17‑1/p.231
Li, Wei NPO1‑13/p.118
NPO2‑63/p.166
Li, Xiaoli M03‑7/p.156
M16‑19/p.228
Li, Xiaoting N17‑5/p.111
Li, Xin M22‑1/p.245
Li, Xingdong M17‑36/p.234
M18‑45/p.237
Li, Ya M17‑13/p.232
Li, Yazhan NPO2‑171/p.174
Li, Yongping NPO2‑26/p.163
Li, Yongzheng NPO1‑91/p.124
Li, Yuanji M12‑15/p.210
M18‑52/p.238
Li, Yuanjing NPO1‑204/p.133
NPO2‑19/p.162
R05‑27/p.137
N7‑1/p.91
NPO1‑199/p.132
NPO2‑15/p.162
NPO1‑200/p.132
Li, Yu‑Dong NPO2‑161/p.173
Li, Yulan NPO1‑199/p.132
R05‑27/p.137
NPO1‑204/p.133
Li, Yun NPO2‑152/p.173
Li, Yusheng M25‑2/p.257
M17‑32/p.233
Li, Zheng NPO1‑12/p.118
N26‑3/p.150
Liang, Futian N17‑5/p.111
Liang, Kun NPO1‑91/p.124
Liang, Xiao H.NPO2‑117/p.170
Liang, Zhengrong M18‑61/p.239
M13‑27/p.216
M17‑18/p.232
M17‑37/p.234
M22‑42/p.248
M15‑3/p.224
M22‑9/p.246
M22‑41/p.248
Liao, Qi MM12‑36/p.212
Liao, Qimei M17‑25/p.233
Liao, Wei N.M21‑33/p.242
Licciulli, Francesco NPO2‑219/p.177
J1‑3/p.114
Licea, A.NPO1‑192/p.132
Lim Chu‑Shern, Jason M08‑7/p.199
Lim, Chang Hwy NPO1‑191/p.132
NPO1‑212/p.133
Lim, Heuijin NPO2‑120/p.170
NPO2‑123/p.170
Lim, Hyun Keong M12‑46/p.213
M12‑40/p.212
Lim, Ilhan M23‑44/p.252
Lim, Jun M11‑68/p.209
Lim, Kyung Taek NPO1‑140/p.128
Lim, Ruth HY2‑4/p.98
Lim, Sang Moo M23‑44/p.252
M18‑19/p.235
M18‑34/p.237
M23‑3/p.249
Lim, Sungoh M21‑44/p.243
Lim, Young Kyung M07‑5/p.198
M21‑57/p.244
M21‑14/p.241
Lima, Joao A.M23‑41/p.252
M23‑40/p.252
Lima, Nathan W.
N45‑6/p.195
Limousin, Olivier R05‑50/p.139
R05‑48/p.139
Lin, Chin‑Sheng NPO2‑193/p.176
Lin, Haichuan N44‑8/p.194
Lin, Jianyu M16‑9/p.227
Lin, Shengzhao NPO2‑207/p.177
Lin, Wei‑Tso M13‑18/p.215
Linden, Jani M18‑23/p.236
Lindenberg, Aaron NPO2‑110/p.169
Linder, Eric V.NPO2‑123/p.170
Lindn, Jani M23‑10/p.250
Lindsay, Cliff M18‑8/p.235
Lindsey, Adam C.
NPO1‑226/p.123
NPO1‑76/p.123
Linget, Denis N9‑7/p.105
Links, Jonathan M.
M22‑1/p.245
M16‑31/p.229
Lintereur, Azaree T.
N39‑1/p.190
Lipsanen, Harri N34‑3/p.187
Lipton, Ronald N14‑4/p.109
Liszkay, Laszlo NPO1‑61/p.122
Little, Kevin J.M23‑27/p.251
Liu, Bin M18‑65/p.239
Liu, Chi M11‑49/p.208
M10‑7/p.200
M18‑1/p.234
4D1‑6/p.96
Liu, Chih‑Chieh M05‑2/p.196
M18‑24/p.236
Liu, Chonghan N17‑5/p.111
Liu, Gang N17‑5/p.111
Liu, Guocai M18‑65/p.239
Liu, Hui M17‑36/p.234
M18‑1/p.234
M11‑49/p.208
M10‑7/p.200
M12‑1/p.209
Liu, J. NPO2‑69/p.166
Liu, Jian‑Jin NPO2‑137/p.172
NPO2‑133/p.171
Liu, Jiangtao N9‑3/p.105
Liu, Jinguang M18‑65/p.239
Liu, Ke M18‑65/p.239
Liu, Min M18‑65/p.239
Liu, Qian NPO1‑13/p.118
Liu, S.‑M. NPO2‑193/p.176
Liu, Ted N44‑1/p.194
N17‑7/p.111
Liu, Tiankuan N17‑5/p.111
Liu, Tsung‑Che NPO1‑62/p.122
NPO2‑123/p.170
Liu, Wei M16‑36/p.229
M09‑6/p.200
Liu, Weirong N20‑6/p.146
Liu, Wen L.M12‑36/p.212
Liu, Wenlei M17‑25/p.233
Liu, X. NPO2‑69/p.166
Liu, Xiang M09‑6/p.200
M16‑36/p.229
Liu, Xin N9‑3/p.105
Liu, Xuan M20‑5/p.225
Liu, Ya Q.NPO2‑117/p.170
Liu, Yan M17‑37/p.234
M18‑61/p.239
M22‑9/p.246
M15‑3/p.224
Liu, Yang M22‑40/p.248
Liu, Yaqiang M13‑3/p.214
NPO2‑185/p.175
M12‑1/p.209
N40‑4/p.191
M17‑31/p.233
N11‑4/p.107
J2‑6/p.115
M18‑45/p.237
M11‑52/p.208
M18‑1/p.234
M11‑49/p.208
M18‑43/p.237
M17‑36/p.234
Liu, Yi NPO2‑20/p.162
NPO2‑19/p.162
Liu, Yi‑Hwa M23‑6/p.249
Liu, Yingzi NPO2‑49/p.165
Liu, Yinong N40‑4/p.191
Liu, Zhen M25‑7/p.258
Liu, Zhen’An N44‑8/p.194
N33‑2/p.186
N33‑5/p.186
Liu, Zheng N8‑5/p.92
Liu, Zhiuyi NPO2‑34/p.163
Liuzzi, Raffaele N2‑1/p.88
Livieratos, Lefteris M18‑21/p.236
Livingstone, Jayde HT3‑9/p.81
Livne, Amir R02‑4/p.94
Liwei, Wang N11‑7/p.107
Ljungberg, Michael M06‑4/p.197
Llamas‑Jansa, Isabel NPO1‑221/p.134
N45‑2/p.194
Llopart, Xavier N14‑5/p.109
R15‑3/p.226
Llosa, Gabriela NPO2‑177/p.175
M11‑40/p.207
M21‑24/p.242
M11‑41/p.207
M21‑22/p.242
M11‑44/p.207
M07‑4/p.198
Lo Presti, Domenico HT2‑2/p.79
N19‑2/p.145
Loach, James C.NPO2‑94/p.168
Loddo, Flavio N2‑1/p.88
Lodge, Martin A.
M22‑3/p.245
M03‑8/p.156
M06‑2/p.197
Loeliger, Teddy R03‑4/p.94
N46‑4/p.195
N46‑2/p.195
Loevenich, Heinz NPO1‑202/p.133
Loginov, Andrey N5‑4/p.90
Lombaert, Herve M23‑45/p.252
Lombardi, Prospero NPO1‑143/p.128
Lonardo, Alessandro NPO2‑204/p.176
N44‑1/p.194
Long, Johnny N15‑4/p.110
Long, Yong M12‑27/p.211
Long, Zhiling NPO2‑38/p.164
Lonski, Peta RD2‑5/p.83
Loo, Kevin J.RD2‑8/p.83
N19‑4/p.145
Lopes, Luis M11‑61/p.208
Lopez Noriega, Mercedes M22‑49/p.249
Lopez, Diego NPO2‑175/p.174
Lordi, Vincenzo R04‑3/p.95
Lorenzoli, Michele NPO1‑90/p.124
NPO1‑223/p.134
Lorincz, Emoke M02‑3/p.155
M11‑31/p.206
Los, Sergey M09‑2/p.199
NPO1‑87/p.124
M16‑56/p.231
Lou, Kai M02‑1/p.155
M21‑8/p.240
M21‑26/p.242
NPO2‑157/p.173
Loudos, George M16‑28/p.229
NPO2‑163/p.174
M21‑48/p.244
Lounis, Abdenour N41‑5/p.192
Loureiro, Manuel NPO1‑17/p.118
Loutchanski, Anatoly R05‑25/p.137
Lozano, Manuel NPO2‑72/p.166
Lozinskaya, Anastasia R05‑34/p.137
Lu, Hongbing M12‑36/p.212
M22‑40/p.248
M15‑3/p.224
M17‑37/p.234
M17‑25/p.233
M22‑42/p.248
Lu, Hsiao‑Ming HT3‑5/p.81
Lu, Jie N15‑5/p.110
Lu, Junguang N23‑2/p.148
Lu, Lijun M17‑12/p.232
M11‑42/p.207
M15‑7/p.224
Lu, Yihuan M13‑27/p.216
Lucchesi, Donatella N44‑1/p.194
Lucchini, Marco N32‑4/p.186
Lucchini, Marco T.
N32‑2/p.186
Luebke, Joerdis R05‑49/p.139
Lui, YiuN16‑7/p.111
Lukić, Zarija N42‑1/p.192
Lukosi, Eric NPO2‑82/p.167
NPO1‑159/p.129
Lumsden, Scott NPO1‑22/p.119
Luo, Chunli NPO2‑207/p.177
Luo, Limin M12‑35/p.212
M12‑37/p.212
Luo, Ming‑Cheng NPO2‑133/p.171
NPO2‑137/p.172
Luo, Weidong M17‑10/p.232
M11‑12/p.205
Luo, Yinhong NPO1‑186/p.131
NPO1‑182/p.131
Luo, Zhifei N15‑6/p.110
NPO2‑32/p.163
Luppi, Eleonora NPO2‑159/p.173
NPO2‑149/p.172
NPO2‑158/p.173
NPO2‑148/p.172
Lurkin, Nicolas N6‑3/p.91
Lusardi, Nicola NPO2‑194/p.176
Lv, Xinyu M23‑4/p.249
Lv, Zhenlei M13‑3/p.214
NPO2‑185/p.175
Lynn, Kelvin G.R10‑3/p.159
Lyons, Thomas D.
NPO1‑218/p.134
M
M. Tajudin, Suffian NPO1‑31/p.119
Ma, Jianhua M11‑42/p.207
M22‑9/p.246
M12‑30/p.212
M17‑12/p.232
Ma, Kyungju N20‑4/p.146
Ma, Li‑Ya NPO2‑161/p.173
Ma, Tianyu M12‑1/p.209
M18‑1/p.234
M11‑49/p.208
M18‑43/p.237
M13‑3/p.214
M18‑45/p.237
M17‑36/p.234
J2‑6/p.115
N11‑4/p.107
M11‑52/p.208
M17‑31/p.233
Maalmi, Jihane N13‑8/p.108
Maass, Nicole M22‑35/p.248
Macafee, Scott N19‑1/p.145
Macarthur, James N3‑2/p.89
Macchiavelli, Augusto N26‑8/p.151
Macdonald, Lawrence R.
M13‑11/p.215
Macera, Daniele N14‑8/p.109
Machrafi, Rachid NPO1‑193/p.132
Macias‑Montero, Jose‑Gabriel J3‑7/p.116
Mackewn, Jane E.
M11‑70/p.209
Mackin, Dennis S.
HT2‑5/p.80
Madden, Norm NPO2‑128/p.171
Madden, Timothy NPO2‑110/p.169
Maddock, Robert N37‑2/p.189
NPO2‑41/p.164
Maeda, Yoshikazu HT3‑8/p.81
Maehlum, Gunnar NPO1‑182/p.131
NPO2‑211/p.177
NPO2‑210/p.177
Maestro, Paolo N24‑8/p.149
Magalotti, Daniel NPO1‑167/p.130
Mager, Magnus N22‑1/p.147
N22‑2/p.147
Maggiore, Mario HT1‑5/p.79
Magistris, Matteo NPO1‑113/p.126
Mahler, George J4‑3/p.160
Mahmood, Shelan M15‑8/p.224
Mahon, David F.NPO1‑22/p.119
Maia, Jorge MR05‑50/p.139
Maier, Michael R.
NPO2‑84/p.167
Maier, Andreas K
M22‑14/p.246
M13‑33/p.216
M22‑35/p.248
M18‑51/p.238
M18‑18/p.235
Maier, Ludwig N16‑3/p.110
Maingault, Laurent J3‑6/p.116
R12‑7/p.202
M02‑3/p.155
Maino, Matteo NPO2‑217/p.177
NPO2‑159/p.173
NPO2‑71/p.166
Mairs, Trevor NPO1‑69/p.122
Maitrejean, Serge J3‑6/p.116
Maity, Tapan K.NPO2‑153/p.173
Maj, Adam NPO1‑21/p.118
Maj, Piotr NPO2‑139/p.172
N14‑3/p.109
NPO1‑146/p.128
N14‑4/p.109
Majcher, Amanda N34‑5/p.187
Majewski, Petra N41‑3/p.192
Majewski, Stan M11‑19/p.205
M16‑56/p.231
M09‑2/p.199
Majewski, Stanislaw M12‑43/p.212
Maji, Takeshi M23‑14/p.250
Majidi, Keivan M12‑19/p.211
Major, Peter M13‑6/p.214
M21‑40/p.243
M02‑3/p.155
Malaguti, Roberto NPO2‑217/p.177
NPO2‑159/p.173
NPO2‑158/p.173
Malakhov, Nail J3‑5/p.116
R06‑4/p.113
Malaney, James NPO2‑231/p.178
Malcovati, Piero M21‑45/p.243
N14‑8/p.109
Maltz, Jonathan S.
NPO2‑40/p.164
Manazza, Alessia NPO2‑222/p.178
Manchanda, Vijay K.
NPO1‑177/p.131
NPO1‑176/p.131
Mandai, Shingo N8‑4/p.92
NPO1‑96/p.124
N22‑5/p.147
M11‑23/p.205
Mandal, Krishna C.
R05‑14/p.136
R11‑2/p.201
Mandelli, Beatrice N10‑6/p.106
Manen, Samuel N40‑6/p.191
Manessi, Giacomo P.
RD1‑4/p.82
Maneuski, Dzimitry R05‑10/p.136
Manghisoni, Massimo NPO2‑222/p.178
NPO1‑8/p.117
NPO2‑228/p.178
Manhart, Michael M13‑33/p.216
Manhart, Michael T.
M18‑51/p.238
Manjarrez‑Marmolejo, Joaquin M11‑65/p.209
Manjeshwar, Ravindra M.
M17‑5/p.231
M04‑5/p.157
M10‑8/p.200
M18‑17/p.235
M22‑11/p.246
M08‑4/p.199
Mann, Joshua D.R09‑6/p.158
R05‑29/p.137
Mannel, Eric J.N26‑5/p.151
Manohar, Nivedh M11‑66/p.209
Manti, Lorenzo HT1‑5/p.79
Mantlik, Frederic M24‑4/p.257
M18‑24/p.236
Manzali, Matteo NPO2‑149/p.172
NPO2‑148/p.172
Mao, Rihua N32‑3/p.186
NPO2‑152/p.173
Maramraju, Sri Harsha M12‑44/p.213
Marchenko, Marina P.
R05‑17/p.136
Marchetti, Dedalo NPO2‑165/p.174
Marchetto, Flavio HT1‑3/p.79
Marchi, Tommaso R05‑39/p.138
Marchiori, Giovanni N13‑2/p.108
Marciniewski, Pawel NPO2‑176/p.175
Marcinkowski, Radoslaw NPO2‑69/p.166
N17‑4/p.111
M13‑1/p.214
M21‑39/p.243
N9‑3/p.105
Marcus, Eliezer NPO2‑36/p.164
Marghesin, Benno N26‑2/p.150
Marian, Vlad NPO2‑95/p.168
NPO1‑183/p.131
Marin Tobon, Cesar Augusto N22‑1/p.147
N22‑2/p.147
Marin, Jesus M16‑48/p.230
NPO2‑208/p.177
Marinelli, Marco N42‑5/p.193
Marinov, Kiril BN27‑6/p.151
Marisaldi, Martino N14‑8/p.109
M21‑45/p.243
Markiewicz, Pawel M08‑1/p.198
Markosyan, Gary N20‑3/p.146
Markovic, Bojan N30‑4/p.153
Marleau, Peter A.
NPO1‑219/p.134
N15‑3/p.110
Marone, Alessandro NPO2‑77/p.167
Maroni, Alain N16‑4/p.110
Marras, Alessandro N14‑7/p.109
N30‑1/p.153
Marrocchesi, Pier S.
N24‑8/p.149
N31‑3/p.185
Marschner, Mathias M20‑6/p.225
Marsden, Edward R14‑3/p.203
Marsden, Paul K.
M08‑4/p.199
M12‑47/p.213
M18‑17/p.235
M18‑5/p.234
M10‑1/p.200
M18‑42/p.237
M11‑70/p.209
Marshall, Matthew J4‑3/p.160
R02‑1/p.93
Martemiyanov, Alexander N20‑7/p.146
Marti, Berta M18‑21/p.236
Marti‑Garcia, Salvador NPO2‑72/p.166
Martin, Christopher S.
NPO1‑215/p.134
NPO1‑218/p.134
NPO1‑217/p.134
Martin, Gisele J2‑3/p.115
Martin, Jakubek NPO1‑133/p.127
Martin, Philip NPO2‑41/p.164
Martin, Philip N.
N37‑2/p.189
Martin, Thierry NPO1‑69/p.122
Martinek, Stepan RD1‑3/p.82
Martinengo, Paolo N22‑2/p.147
N22‑1/p.147
Martinez, Gustavo M16‑48/p.230
NPO2‑208/p.177
Martinez, Paul N20‑2/p.146
Martinez, Ricardo J3‑7/p.116
Martinez‑Davalos, Arnulfo M11‑37/p.207
M11‑65/p.209
Martins, Paulo M11‑61/p.208
Martins, Rodrigo R11‑1/p.201
Martinson, Mercedes M12‑6/p.210
Martisikova, Maria HT3‑9/p.81
Martnez, Ricardo R06‑6/p.113
Marton, Zsolt N12‑2/p.107
N7‑5/p.92
Martone, Peter M12‑43/p.212
Martos, Francisco NPO2‑76/p.167
M17‑20/p.232
NPO2‑73/p.167
Martos, Julio M16‑40/p.229
Marzocca, Cristoforo J1‑3/p.114
J2‑2/p.115
NPO2‑219/p.177
Masai, Hirokazu NPO1‑39/p.120
Mascarenhas, Nicholas N39‑2/p.190
Mase, Keiichi NPO1‑95/p.124
NPO1‑94/p.124
M11‑13/p.205
NPO1‑169/p.130
NPO1‑106/p.125
Maslehuddin, M. M.
NPO2‑1/p.161
Massari, Nicola M02‑3/p.155
N8‑6/p.92
Mastroianni, Stefano N2‑8/p.89
Masuda, Akihiko NPO1‑209/p.133
NPO1‑210/p.133
Masuda, Kai NPO1‑72/p.122
NPO2‑30/p.163
Masumoto, Shinichi NPO1‑120/p.126
Matarrese, Gianvito J1‑3/p.114
Matea, Iolanda N4‑1/p.89
Matei, Liviu R05‑14/p.136
R14‑5/p.203
Matei, Simion M23‑19/p.250
Matej, Samuel M25‑2/p.257
M17‑32/p.233
Matela, Nuno M18‑27/p.236
Mathes, Markus N46‑2/p.195
Mathews, Aswin John M16‑23/p.228
M11‑47/p.207
M22‑26/p.247
Mathez, Herv NPO2‑226/p.178
Mathy, Francoise J3‑6/p.116
M22‑10/p.246
Mato, Pere N6‑7/p.91
Matrejean, Serge M22‑10/p.246
Matsopoulos, George NPO2‑163/p.174
Matsubara, Yutaka NPO2‑175/p.174
Matsufuji, Naruhiro HT3‑10/p.81
HT3‑8/p.81
Matsui, Keishi NPO1‑59/p.121
Matsumoto, Erika N28‑2/p.152
Matsumoto, Haruhisa N28‑7/p.152
Matsumoto, Mariko M12‑23/p.211
M20‑1/p.225
M23‑14/p.250
Matsumoto, Masahiko R13‑1/p.202
Matsumoto, Naoyuki N28‑2/p.152
Matsumoto, Takuya NPO1‑145/p.128
NPO2‑101/p.169
Matsumoto, Tetsuro NPO1‑209/p.133
NPO1‑210/p.133
Matsumura, Hideaki N1‑4/p.88
NPO2‑124/p.171
Matsuoka, Yoshihiro M12‑10/p.210
N10‑2/p.106
NPO2‑122/p.171
N28‑2/p.152
Matsusaka, Keisuke M11‑15/p.205
M21‑66/p.245
Matsuyama, Shigeo M16‑59/p.231
Matsuzaki, Hiroyuki N27‑1/p.151
Matsuzawa, Hiroki M12‑13/p.210
Mattedi, Francesca N41‑1/p.192
Matthews, Julian C.
M23‑30/p.251
M17‑29/p.233
M17‑28/p.233
Mattiazzo, Serena N22‑2/p.147
N22‑1/p.147
NPO1‑5/p.117
Mattila, Marco N34‑3/p.187
Mawlawi, Osama R.
M21‑4/p.240
Mayer, Sabine RD1‑4/p.82
Mayr, Doris M20‑7/p.225
Mazor, Tzachi NPO2‑36/p.164
Mazumdar, H. S.
NPO2‑70/p.166
Mazzillo, Massimo NPO1‑87/p.124
McCabe, J. B.N37‑5/p.189
McClory, John NPO2‑35/p.163
McDaniel, David L.
NPO2‑231/p.178
M16‑52/p.230
M16‑7/p.227
M16‑10/p.227
M11‑3/p.204
M12‑44/p.213
M23‑5/p.249
McGowan, Daniel R.
M15‑8/p.224
McGregor, Douglas S.
R14‑1/p.203
McGregor, Megan NPO2‑128/p.171
McHale, Stephen NPO2‑35/p.163
McIntosh, Bryan M21‑62/p.245
M06‑6/p.197
McIntosh, Peter A.
N37‑4/p.189
McKay, Erin M13‑13/p.215
McKenna, Joseph T.
NPO2‑68/p.166
McKinnon, Bryan NPO1‑22/p.119
McKinsey, Daniel N3‑7/p.89
McKisson, John E.
N19‑6/p.145
NPO2‑54/p.165
NPO2‑54/p.165
McLean, Chris C.
N21‑5/p.147
NPO2‑190/p.175
McNamara, Aimee L.
M07‑7/p.198
M13‑15/p.215
McPhate, Jason B.
N39‑8/p.191
McWalter, Emily J.
M05‑8/p.196
Mechinski, Vitaly N32‑4/p.186
Męczyński, Witold NPO1‑21/p.118
Medina, Marcio NPO2‑140/p.172
Medjoubi, Kadda NPO2‑102/p.169
Mehta, Apruva NPO2‑110/p.169
Meier, Dirk NPO2‑211/p.177
NPO1‑182/p.131
NPO2‑210/p.177
Meierbachtol, Krista N26‑7/p.151
Meikle, Steven R.
M18‑15/p.235
M10‑2/p.200
M13‑15/p.215
M22‑18/p.246
M18‑26/p.236
MRF4‑1/p.
M18‑11/p.235
M18‑13/p.235
Meja Munoz, Jose M.
M17‑9/p.232
Melcher, Charles L.
NPO1‑226/p.123
NPO1‑76/p.123
NPO1‑46/p.120
NPO1‑47/p.121
Mellor, Matt N3‑5/p.89
Menard, Laurent M16‑43/p.230
M09‑8/p.200
M11‑34/p.206
Mendicino, Roberto N41‑1/p.192
R05‑39/p.138
Meng, Ling‑Jian HY2‑2/p.98
M02‑4/p.155
R06‑1/p.113
M16‑16/p.
M14‑8/p.223
J2‑8/p.115
M21‑63/p.245
M22‑48/p.249
NPO2‑42/p.
Menge, Peter R.NPO1‑197/p.132
NPO1‑73/p.123
N4‑5/p.90
Mengesha, Wondwosen NPO1‑219/p.134
N7‑5/p.92
Menkara, Hisham J2‑1/p.114
Menys, Alex M17‑24/p.233
Mercere, Pascal NPO2‑102/p.169
Merhof, Dorit M08‑1/p.198
Merlin, Jeremie A.
N10‑7/p.106
Merlin, Thibaut M23‑36/p.251
Mertens, Marius NPO2‑176/p.175
Messina, Andrea NPO2‑204/p.176
Metcalfe, P. NPO2‑57/p.165
RD2‑9/p.83
Metzler, Scott D.M14‑6/p.223
M16‑4/p.227
M13‑14/p.215
M25‑1/p.257
M25‑2/p.257
M17‑32/p.233
Meures, Thomas NPO2‑169/p.174
Meuris, Aline R05‑48/p.139
R05‑50/p.139
Meyer, Joerg R12‑6/p.202
Meyer, Michael N30‑2/p.153
Meyer, Tom J2‑4/p.115
J1‑6/p.114
Mezza, Davide N46‑7/p.195
N43‑5/p.193
NPO2‑109/p.169
Mibe, Tsutomu NPO2‑220/p.178
Miccoli, Alessandro NPO1‑126/p.127
Michel, Christian J.
M02‑2/p.155
Michel, Jan M11‑61/p.208
Michel, John N36‑2/p.188
Michel, Norbert RD2‑10/p.83
Michel, Thilo M12‑8/p.210
RD2‑10/p.83
Mickum, G. S.NPO1‑222/p.134
Migliozzi, Pasquale NPO1‑112/p.126
Mihailescu, Lucian NPO2‑40/p.164
N25‑4/p.150
NPO2‑53/p.165
Mihlin, Alex M25‑4/p.258
M04‑3/p.157
Mik, Lukasz M16‑47/p.230
NPO2‑75/p.167
Mika, Teraes M23‑10/p.250
Mikolajczak, Renata M13‑31/p.216
Mikuz, Marko M11‑41/p.207
Milani, Enrico N42‑5/p.193
Milano, Luciano R05‑30/p.137
Miller, Brian W.N38‑6/p.190
M14‑1/p.223
N45‑3/p.194
Miller, Stuart R.M21‑41/p.243
N7‑5/p.92
N12‑2/p.107
J3‑1/p.115
Million, Benedicte NPO1‑21/p.118
NPO1‑20/p.118
NPO1‑15/p.118
NPO2‑77/p.167
Milner, Edward C.
N42‑1/p.192
Mimura, Hidenori R05‑47/p.139
R05‑18/p.136
R11‑3/p.201
R06‑5/p.113
Min, Byungjun M21‑23/p.242
Min, Eungi M16‑50/p.230
M21‑54/p.244
M21‑1/p.240
Min, Kyung‑Joo NPO1‑179/p.131
Minagawa, Moyuru NPO1‑57/p.121
Minashvili, Irakli NPO2‑197/p.176
Minemura, Satsuki N2‑2/p.88
Minsky, Bruce M21‑7/p.240
Mio, Ron M23‑19/p.250
Miranda, Alan M11‑37/p.207
Mirandola, Alfredo HT1‑3/p.79
Mirbt, Susanne R05‑2/p.135
Mirkovic, Dragan M02‑1/p.155
M21‑26/p.242
Mirzoyan, Razmik N8‑3/p.92
Mishima, Kenji NPO1‑116/p.126
Mitchell, Gregory S.
M16‑1/p.227
Mitchell, John N9‑6/p.105
Mitev, Krasimir K.
M21‑17/p.241
NPO2‑143/p.172
NPO1‑180/p.131
N28‑1/p.152
Mitra, Debasis M17‑11/p.232
Mitra, Sudeep M21‑58/p.244
Mitsuda, Chikanori NPO2‑104/p.169
Mitsuka, Gaku NPO2‑175/p.174
Mitsuya, Yuki N10‑4/p.106
Miuchi, Kentaro N28‑7/p.152
NPO2‑122/p.171
N10‑2/p.106
Miura, Noriyuki N41‑2/p.192
Mix, Michael R05‑49/p.139
J3‑3/p.115
Miyadera, Haruo NPO1‑115/p.126
NPO2‑78/p.167
N42‑1/p.192
Miyamoto, Naoki M21‑19/p.241
Miyamoto, Shuji N16‑7/p.111
Miyamoto, Yuka NPO1‑170/p.130
Miyaoka, Robert S.
M09‑5/p.200
M03‑4/p.156
M21‑29/p.242
M25‑3/p.258
M11‑25/p.206
M25‑6/p.258
Miyazaki, Daijiro N34‑4/p.187
NPO2‑104/p.169
Miyazaki, Takahiro NPO2‑175/p.174
Miyazaki, Takuya NPO1‑59/p.121
Miyazawa, Takuya N9‑6/p.105
Miyazawa, Tomotaka NPO2‑100/p.169
Miyoki, Shinji N1‑1/p.87
Miyoshi, Toshiki NPO1‑88/p.124
Miyoshi, Toshinobu NPO2‑3/p.161
N41‑2/p.192
NPO1‑3/p.117
Mizumoto, Tetsuya N10‑2/p.106
NPO2‑122/p.171
M12‑10/p.210
N28‑2/p.152
Mizumura, Yoshitaka NPO2‑122/p.171
M12‑10/p.210
N28‑2/p.152
N10‑2/p.106
Mo, Yi M18‑65/p.239
Moch, David NPO2‑105/p.169
Mochiki, Koh‑Ichi NPO1‑154/p.129
Mochizuki, Katsumi R05‑1/p.135
Moeller‑Chan, Victoria N26‑8/p.151
Mohan, Radhe HT3‑6/p.81
Mohil, Manisha N28‑5/p.152
Mok, Greta M18‑25/p.236
Mok, Greta S. P. M16‑6/p.227
Mokeev, Dmitriy R05‑34/p.137
Molinelli, Silvia HT1‑3/p.79
Moliner, Laura NPO2‑73/p.167
M22‑7/p.246
M11‑27/p.206
M17‑20/p.232
M11‑6/p.204
NPO2‑76/p.167
Mollet, Pieter M16‑13/p.228
Mollo, Carlos M.
NPO1‑112/p.126
Molloi, Sabee J3‑5/p.116
Molnar, Jozsef NPO1‑30/p.119
Momiyama, Satoru NPO1‑59/p.121
Momose, Toshimitsu M21‑66/p.245
M11‑15/p.205
Monfrini, Emmanuel M18‑54/p.238
Mongelli, Maurizio N2‑1/p.88
Monnet, Olivier R12‑7/p.202
R12‑6/p.202
J3‑6/p.116
R02‑3/p.94
Montanari, Alessandro NPO1‑68/p.122
NPO2‑158/p.173
Montemont, Guillaume M22‑10/p.246
J3‑6/p.116
R12‑6/p.202
R12‑7/p.202
R02‑3/p.94
Montemurro, Giuseppe V
N46‑7/p.195
Montesano, Simone N13‑8/p.108
Moon, Byung Seok M23‑46/p.252
Moon, Jei Kwon NPO1‑178/p.131
Moon, Jin‑Ho R12‑4/p.202
Moon, Myung‑Kook NPO1‑212/p.133
Moor, Andrew P.M24‑1/p.257
Moore, S. C.M14‑6/p.223
Moore, Stephen C.
M23‑16/p.250
M16‑3/p.227
M18‑44/p.237
M03‑5/p.156
M25‑1/p.257
Moore, William M22‑41/p.248
Mora, Marco M18‑50/p.238
Mora, Yesid N38‑2/p.190
Moravec, Pavel R03‑3/p.94
Morel, Christian M12‑26/p.211
Morel, Frdric NPO1‑9/p.117
Morel, Michel N14‑2/p.109
Morello, Gianfranco N2‑1/p.88
Moreno, Pablo NPO2‑197/p.176
Moretti, Elena N9‑4/p.105
N39‑6/p.190
Morey, Alan M.M18‑59/p.239
Morganti, Silvio M21‑67/p.245
Mori, Masaki M22‑43/p.248
Mori, Nicola N31‑7/p.185
Morii, Hisashi R06‑5/p.113
Morimoto, Yuichi M16‑2/p.227
M18‑30/p.236
Morishita, Yuki N28‑3/p.152
N36‑5/p.188
Morita, Akira N27‑1/p.151
Moritake, Takeshi NPO1‑29/p.119
Moriya, Takahiro N12‑1/p.107
Morris, Christopher L.
NPO1‑115/p.126
N42‑1/p.192
N38‑5/p.190
NPO2‑78/p.167
Morrocchi, Matteo M03‑4/p.156
J2‑2/p.115
Morsani, Fabio NPO1‑8/p.117
Morton, Edward J.
N37‑4/p.189
Moscatelli, Francesco R05‑30/p.137
Moses, William W.
NP2‑1/p.87
N21‑3/p.147
M09‑2/p.199
NPO2‑81/p.167
M03‑1/p.156
M11‑1/p.204
Moszyński, Marek N8‑1/p.92
N20‑5/p.146
N12‑3/p.107
N20‑8/p.146
NPO1‑99/p.125
N20‑2/p.146
Motakef, Shariar R04‑5/p.95
R02‑6/p.94
NPO1‑27/p.119
Motomura, Shinji NPO2‑186/p.175
N28‑6/p.152
Motuk, Erdem NPO2‑103/p.169
Moulin, Jean‑Francois N23‑6/p.148
N7‑2/p.91
Moutinho, Lus M.
M11‑50/p.208
Mozzanica, Aldo N30‑1/p.153
N46‑3/p.195
NPO1‑166/p.130
Muchacho, Fernando M11‑50/p.208
Mueller, Andreas NPO2‑64/p.166
Mueller, Kerstin M18‑18/p.235
Mueller, Klaus M12‑34/p.212
M18‑71/p.239
M12‑39/p.212
M22‑27/p.247
Mueller, Mark M20‑5/p.225
Mueller, Martin N23‑6/p.148
NPO2‑47/p.164
N7‑2/p.91
Mueller, Wilhelm N38‑4/p.190
Muenchow, David N33‑2/p.186
Muenzer, Robert N16‑3/p.110
Muff, Reto NPO1‑182/p.131
Mugnier, Herve N22‑2/p.147
Mukai, Naruhiko NPO1‑162/p.130
Mulilo, Benard N19‑5/p.145
Mulilo, Bernard NPO2‑61/p.166
NPO2‑85/p.167
Mullet, Steven N45‑2/p.194
Mullins, John T.R01‑6/p.93
R15‑4/p.226
Munakata, Kazuoki NPO2‑175/p.174
Muneeruddin, Arsalan NPO2‑42/p.
Munk, Ole L.M17‑39/p.234
Munoz, Angel M16‑26/p.228
Muraishi, Hiroshi M12‑13/p.210
Murakami, Hikari NPO1‑120/p.126
Murakami, Koichi N18‑4/p.112
Murakami, Takeshi NPO1‑121/p.126
Muramatsu, Takashi NPO1‑220/p.134
Murat, Pavel M16‑56/p.231
NPO1‑87/p.124
M09‑2/p.199
Murayama, Hideo M21‑47/p.244
M21‑59/p.244
Murer, David N20‑5/p.146
N39‑4/p.190
N20‑8/p.146
N20‑7/p.146
Murray, Iain M15‑8/p.224
Murray, Morgan NPO1‑22/p.119
Murrieta‑Rodriguez, Tirso M11‑37/p.207
Murtas, Fabrizio RD1‑2/p.82
NPO1‑113/p.126
RD1‑6/p.82
N39‑3/p.190
RD1‑8/p.82
RD1‑5/p.82
Murty, S. V. S.NPO2‑136/p.172
Musa, Luciano N22‑1/p.147
N22‑2/p.147
Musalem, Octavio NPO2‑175/p.174
Muto, Sadatsugu NPO1‑88/p.124
Muzi, Mark M23‑8/p.249
M13‑30/p.216
Mwathi, John R10‑5/p.159
Myers, Eddie M09‑5/p.200
Myronakis, Marios E
M13‑19/p.215
N
Na, Man Gyun NPO2‑14/p.162
Na, Go Woon NPO2‑123/p.170
Na, Mangyun N42‑4/p.193
Na, Won Kyung R05‑51/p.139
Nabeta, Shisei NPO1‑64/p.122
Nabetani, Akira N28‑2/p.152
Naeini, Mitra S.NPO2‑56/p.165
Nagai, Yuya NPO2‑175/p.174
Nagamatsu, Aiko N28‑7/p.152
Nagamine, Shuji NPO1‑198/p.132
Nagano, Terumasa N8‑2/p.92
NPO1‑89/p.124
Nagao, Yuto M18‑35/p.237
M11‑21/p.205
M21‑5/p.240
Nagarkar, Vivek V
M21‑41/p.243
N7‑5/p.92
J3‑1/p.115
J2‑1/p.114
N12‑2/p.107
Nagashima, Kenichi N28‑4/p.152
NPO1‑164/p.130
Nagata, Shinji NPO1‑34/p.119
Nagumo, Yasushi N28‑4/p.152
Nakada, Kento M20‑2/p.225
M20‑3/p.225
Nakahata, Masayuki N24‑5/p.149
Nakai, Wataru NPO1‑120/p.126
Nakajima, Iwao M05‑5/p.196
Nakajima, Yasunori HT3‑2/p.80
M07‑2/p.198
M21‑16/p.241
NPO2‑58/p.165
M07‑1/p.197
Nakajima, Yasuo M12‑13/p.210
Nakamori, Takeshi NPO1‑150/p.128
N11‑2/p.106
Nakamoto, Katsuhiro NPO1‑144/p.128
Nakamura, Kiseki N10‑2/p.106
NPO2‑122/p.171
Nakamura, Naoji R05‑1/p.135
Nakamura, Shigeyuki NPO1‑150/p.128
N11‑2/p.106
NPO1‑144/p.128
NPO1‑145/p.128
Nakamura, Shogo N28‑2/p.152
M12‑10/p.210
N10‑2/p.106
NPO2‑122/p.171
Nakamura, Takashi NPO1‑4/p.117
Nakamura, Tatsuya NPO1‑211/p.133
NPO1‑195/p.132
NPO1‑26/p.119
Nakamura, Yasuaki M21‑66/p.245
NPO1‑151/p.129
Nakamura, Yasuhiko NPO1‑198/p.132
Nakanishi, Daiki NPO1‑198/p.132
Nakanishi, Hideya NPO1‑88/p.124
Nakanishi, Satoru M17‑30/p.233
Nakanishi, Yasuyuki N28‑2/p.152
Nakano, Masahiro M23‑42/p.252
Nakano, Takahiro NPO1‑64/p.122
Nakano, Takashi NPO1‑64/p.122
M11‑21/p.205
M18‑35/p.237
M21‑5/p.240
Nakano, Takayuki R11‑3/p.201
Nakashima, Shinya NPO2‑124/p.171
N1‑4/p.88
Nakaya, Tsuyoshi N24‑5/p.149
Nakayama, Hirofumi NPO1‑169/p.130
NPO1‑94/p.124
NPO1‑106/p.125
Nakayama, Hirohumi NPO1‑95/p.124
Nakayama, Kunihiko NPO1‑162/p.130
Nakayama, Shoei N24‑5/p.149
Nakaye, Yasukazu NPO1‑146/p.128
Nakazawa, Dante R.
NPO1‑71/p.122
Nakazawa, Kazuhiro N1‑6/p.88
Nakazawa, Masayuki M12‑59/p.214
Nakonechnyi, Ihor R05‑3/p.135
Nam, Heerim M21‑23/p.242
Nam, Ji Woo NPO2‑123/p.170
NPO1‑62/p.122
Nam, Sang‑Hee R05‑7/p.135
R05‑9/p.135
Nam, Taewon M18‑19/p.235
Nam, Woo Hyun M18‑49/p.238
M17‑35/p.233
M18‑3/p.234
Namito, Yoshihito N29‑1/p.152
NPO1‑4/p.117
NPO1‑31/p.119
Namkung, Won R05‑37/p.138
Nanto, Hidehito NPO1‑170/p.130
Napiorkowski, P .
NPO1‑21/p.118
Nappi, Eugenio J1‑3/p.114
Naqvi, Akhtar A.NPO2‑62/p.166
NPO2‑1/p.161
Narayanan, Manishan M21‑29/p.242
Nasr, Amgad K.NPO1‑123/p.127
Nasri, Bayan NPO2‑225/p.178
N46‑5/p.195
Nastasi, Massimiliano NPO1‑181/p.131
Nathaniel, Bowden N15‑3/p.110
Natsume, Takahiro M12‑29/p.211
M23‑42/p.252
M23‑41/p.252
Navalpakkam, Bharath K.
M13‑33/p.216
Navarro, Jorge NPO2‑12/p.162
Nawarathna, Ruwan M18‑62/p.239
Necib, Hatem M23‑20/p.250
Negm, Hani NPO1‑72/p.122
NPO2‑30/p.163
Negut, Victor N25‑8/p.150
Nelms, Nick N34‑3/p.187
NPO2‑121/p.170
Nelson, Karl NPO2‑22/p.162
NPO2‑37/p.164
N11‑6/p.107
Nelson, Silke NPO2‑111/p.169
NPO2‑113/p.170
Nelson, Walter R.
N29‑1/p.152
Nemallapudi, Mythra Varun N8‑5/p.92
Nemeth, Gabor M02‑3/p.155
M21‑40/p.243
Nemoz, Christian NPO2‑106/p.169
Neo, Yoichiro R05‑18/p.136
Neri, Nicola NPO2‑184/p.175
Neves, Jorge M16‑49/p.230
Newby, Jason NPO2‑31/p.163
Newby, Robert J.N25‑1/p.149
N36‑7/p.188
Nguyen, Van‑Giang M22‑22/p.247
Ni, Kevin NPO2‑37/p.164
Ni, Yarin NPO1‑222/p.134
Niccolai, Silvia N16‑4/p.110
Nicolini, Roberto M21‑29/p.242
Nicolo’, Donato N13‑4/p.108
Nie, Bin B.M23‑43/p.252
Nie, Linda H.NPO2‑49/p.165
Nie, Mao M18‑65/p.239
Nieminen, Petteri NPO1‑182/p.131
Nigg, David W.NPO2‑12/p.162
Nihei, Takayuki NPO1‑81/p.123
NPO1‑82/p.123
Niikura, Megumi NPO1‑59/p.121
Nikbakht, Mohsen N27‑2/p.151
Nikl, Martin N4‑8/p.90
NPO1‑82/p.123
Nino, Juan C.R05‑8/p.135
R04‑6/p.95
Nio, Daisuke NPO1‑86/p.124
Niraula, Madan R13‑1/p.202
Nishida, Shohei NPO1‑153/p.129
Nishikata, Mami NPO1‑23/p.119
Nishikawa, Robert M
M22‑5/p.246
Nishikido, Fumihiko M11‑17/p.205
NPO2‑58/p.165
M21‑47/p.244
HT3‑2/p.80
M05‑5/p.196
M12‑45/p.213
NPO1‑29/p.119
M21‑16/p.241
M07‑1/p.197
M21‑59/p.244
Nishimoto, Kei N12‑5/p.107
NPO1‑44/p.120
Nishimura, Kurtis NPO1‑157/p.129
Nishimura, Shoichiro NPO2‑220/p.178
Nishimura, Yasuhiro N24‑5/p.149
Nishimura, Yuichi NPO2‑2/p.161
Nishio, Teiji HT3‑8/p.81
Nishiyama, Jun NPO1‑210/p.133
Nishiyama, Shusuke N4‑2/p.89
Nishiyama, Toru NPO1‑144/p.128
NPO1‑150/p.128
N11‑2/p.106
Nitta, Munetaka M11‑13/p.205
M21‑59/p.244
NPO2‑58/p.165
M21‑47/p.244
Niu, Libo R05‑27/p.137
NPO1‑199/p.132
Niu, Ming M16‑11/p.227
Niu, Xiaofeng M16‑19/p.228
M23‑12/p.250
Nixon, Mark M18‑66/p.239
Nocente, Massimo NPO1‑90/p.124
Noel, Peter B.M20‑6/p.225
M20‑7/p.225
Noel, Scott NPO2‑34/p.163
Noeldgen, Holger M16‑46/p.230
M11‑28/p.206
Nohtomi, Akihiro NPO1‑198/p.132
Nolan, Paul J.N38‑4/p.190
NPO2‑68/p.166
Noo, Frederic M18‑59/p.239
Noonan, Philip J.
M18‑39/p.237
M17‑28/p.233
Nordgren, Joseph N30‑2/p.153
Norman, Eric B.N38‑1/p.189
Noshi, Yasuhiro M23‑12/p.250
Nouxman, Muhammad H.
N2‑2/p.88
Novosad, Philip M23‑45/p.252
Novotny, Rainer W.
N12‑7/p.108
Nowack, Aaron N3‑4/p.89
Nowak, Gregor N23‑6/p.148
N7‑2/p.91
Nowak, Sebastian N40‑8/p.191
N44‑5/p.194
Nowicki, Suzanne F.
NPO2‑126/p.171
Noy, Matthew N14‑2/p.109
Nucciotti, Angelo N26‑2/p.150
Nutbeam‑Tuffs, Sian NPO1‑22/p.119
Nuyts, Johan MRF5‑1/p.
M04‑1/p.156
M19‑5/p.225
M19‑8/p.225
M17‑27/p.233
M18‑53/p.238
M08‑2/p.198
M18‑10/p.235
M18‑26/p.236
Nyberg, Lars M23‑32/p.251
Nyflot, Matthew J.
M21‑29/p.242
Nygard, Einar J3‑5/p.116
R06‑4/p.113
Nyhus, HildeN16‑7/p.111
Nyiroe, Michael N20‑7/p.146
Nykoniuk, Yevhen R05‑3/p.135
O
O’ Malley, John NPO2‑41/p.164
O Murchadha, Aongus NPO2‑169/p.174
Oakham, F. G.NPO2‑34/p.163
Obara, Yuki NPO1‑120/p.126
Obata, Takayuki M05‑5/p.196
M12‑52/p.213
M12‑45/p.213
Obermann, Theresa NPO1‑6/p.117
Obi, Takashi M16‑15/p.228
M12‑53/p.213
Oborn, B. RD2‑9/p.83
Occhipinti, Michele NPO2‑77/p.167
M21‑40/p.243
NPO2‑121/p.170
Ochoa Dominguez, Humberto D
M17‑9/p.232
O’Connor, J. Michael M18‑60/p.239
O’Connor, Paul R05‑41/p.138
Oda, Makoto M21‑15/p.241
Odaka, Hirokazu J4‑4/p.160
M11‑21/p.205
N1‑6/p.88
Odegaard, Trygve NPO2‑211/p.177
NPO2‑210/p.177
Ogata, Tomohiro NPO1‑220/p.134
Ogata, Yoshimune N36‑3/p.188
N43‑6/p.193
Ogawa, Koichi M23‑14/p.250
M18‑56/p.238
M12‑23/p.211
M20‑1/p.225
M11‑22/p.205
M21‑9/p.240
Ogawa, Kunihiro NPO2‑10/p.161
Ogawa, Satoru NPO1‑153/p.129
Ogorodnik, Yaroslav R04‑1/p.95
Ogura, Yuta M22‑34/p.247
Oguri, Vitor NPO2‑140/p.172
Ogurreck, Malte NPO2‑47/p.164
Oh, Alexander J4‑6/p.160
Oh, Chang Hyun M12‑40/p.212
M12‑46/p.213
Oh, Junghwan M18‑62/p.239
Oh, Jungsu S.M23‑22/p.251
Oh, Ohsung NPO1‑191/p.132
Oh, Pil Jei NPO2‑60/p.166
Oh, Seongchan R05‑37/p.138
Ohgaki, Hideaki NPO2‑27/p.163
NPO1‑72/p.122
NPO2‑30/p.163
Ohi, Junichi M12‑59/p.214
Ohm, Henner NPO2‑176/p.175
Ohmoto, Takafumi NPO1‑184/p.131
NPO2‑124/p.171
NPO1‑11/p.118
Ohmura, Tomohide NPO1‑145/p.128
Ohno, Morifumi N41‑2/p.192
Ohsuka, Shinji NPO1‑150/p.128
N11‑2/p.106
NPO1‑144/p.128
Ohta, Masayuki N1‑6/p.88
Ohtaka, Masahiko M12‑18/p.211
M12‑28/p.211
Ohzu, Akira NPO1‑195/p.132
Oishi, Satoru M09‑7/p.200
M21‑68/p.245
Ojeda Sandonis, Miguel N45‑10/p.195
Okada, Kensuke NPO2‑134/p.171
Okada, Koichi N28‑4/p.152
Okada, Teruyuki NPO1‑104/p.125
Okajima, Takashi N9‑6/p.105
Okihara, Masao N41‑2/p.192
Okumura, Yasuhiro M11‑15/p.205
M21‑66/p.245
Okumura, Yasuyuki N17‑7/p.111
Okunoyama, Takaharu R06‑5/p.113
Okwechime, Ifechukwude O.
R13‑6/p.202
R10‑5/p.159
Olcott, Peter D.M06‑8/p.197
M16‑53/p.230
Olesen, Oline V.M18‑40/p.237
Oliveira Damazio, Denis NPO2‑178/p.175
Oliver, Josep M07‑4/p.198
M21‑24/p.242
M11‑45/p.207
M21‑3/p.240
Oliver, Josep F.M11‑44/p.207
M21‑22/p.242
Ollier, James N37‑4/p.189
Olsen, Jamieson N17‑7/p.111
Omachi, Chihiro HT3‑8/p.81
O’Malley, John N37‑2/p.189
Omer, Mohamed NPO1‑72/p.122
NPO2‑30/p.163
Omodani, Motohiko M14‑4/p.223
NPO1‑11/p.118
Onabe, Hideaki M12‑18/p.211
M12‑28/p.211
O’Neil, James P.NPO2‑81/p.167
O’Neill, Kevin M21‑34/p.243
NPO1‑92/p.124
Ono, Shun M14‑4/p.223
NPO1‑11/p.118
N30‑3/p.153
Ono, Yasushi NPO1‑88/p.124
Onodera, Ko NPO1‑50/p.121
NPO1‑82/p.123
Onodera, Kou NPO1‑81/p.123
Onodera, Toshiyuki R04‑2/p.95
R05‑1/p.135
Opanowski, Adam M23‑8/p.249
Orita, Tadashi NPO2‑215/p.177
NPO1‑152/p.129
Oriunno, Marco NPO2‑99/p.168
Orozco, Johnnie M14‑1/p.223
Orr, Laurel J.N18‑3/p.112
Orsi, Silvio NPO2‑69/p.166
N9‑3/p.105
Orsini, Fabienne NPO1‑9/p.117
Orsolini Cencelli, Valentino N43‑8/p.193
M16‑18/p.228
M11‑55/p.208
M16‑20/p.228
NPO2‑232/p.178
Ortega Maynez, Leticia M17‑9/p.232
Ortega, Pablo G.M21‑24/p.242
M21‑22/p.242
Ortigao, Catarina M18‑27/p.236
M18‑20/p.235
Ortigo, Catarina M16‑49/p.230
Ortiz, Ernesto NPO2‑175/p.174
Orzan, Giulio N31‑7/p.185
Osaka, Keiichi NPO2‑101/p.169
Osborne, Dustin M23‑11/p.250
O’Shea, Val R05‑10/p.136
Osovizky, Alon NPO2‑36/p.164
O’Suilleabhain, Liam M17‑19/p.232
O’Sullivan, Finbarr M17‑19/p.232
M23‑17/p.250
M23‑8/p.249
O’Sullivan, Joseph A
M16‑23/p.228
M22‑26/p.247
M11‑47/p.207
Otfinowski, Piotr N40‑5/p.191
NPO2‑218/p.177
Ott, Sebastian N40‑8/p.191
Ouspenski, Vladimir NPO1‑197/p.132
NPO1‑73/p.123
N4‑5/p.90
Ouyang, Jinsong M05‑3/p.196
Ouyang, Xiaoping NPO2‑205/p.177
Ovchinnikov, Oleg S.
M11‑57/p.208
Ovechkina, Elena N7‑5/p.92
Overholt, Matthew R.
R04‑5/p.95
R02‑6/p.94
Oxley, David C.M21‑32/p.242
HT3‑7/p.81
Oyama, Syouhei NPO2‑130/p.171
Ozaki, Kyosuke N30‑3/p.153
Ozawa, Kyoichiro NPO1‑120/p.126
P
Pacciani, Francesco N24‑8/p.149
Pace, Emanuele N19‑3/p.145
RD2‑3/p.83
Padgett, Stephen N38‑1/p.189
Paff, Marc G.NPO1‑190/p.132
Pagel, John M.M14‑1/p.223
Pagliazzi, Marco M22‑47/p.248
Pahlsson, Philip NPO2‑210/p.177
NPO2‑211/p.177
Paiser, Ernesto NPO1‑69/p.122
Pak, Robert N16‑2/p.110
Pal, Debashish M22‑37/p.248
Pal, Saikat M05‑8/p.196
Palka, Marek M11‑61/p.208
Pallotta, Stefania N19‑2/p.145
HT2‑2/p.79
Palombo, Fernando NPO2‑184/p.175
Pan, Jingsheng NPO1‑204/p.133
Pan, Shangke NPO1‑14/p.118
Pan, Weibin N40‑2/p.191
NPO2‑205/p.177
Pan, Xiaochuan M22‑6/p.246
M12‑33/p.212
M15‑1/p.223
M22‑32/p.247
M09‑7/p.200
M21‑68/p.245
M22‑28/p.247
M21‑20/p.241
M22‑5/p.246
M22‑33/p.247
M12‑32/p.212
M22‑8/p.246
Pan, Yongsheng M17‑30/p.233
Pan, Yubai NPO1‑13/p.118
Panareo, Marco NPO2‑200/p.176
NPO1‑126/p.127
Panasyuk, Mikhail I.
NPO2‑123/p.170
Panayotakis, George M16‑28/p.229
Panchuk, Oleh R05‑3/p.135
Panetta, Daniele M25‑8/p.258
Panetta, Joseph M18‑36/p.237
Pangaud, Patrick NPO1‑6/p.117
Pani, Priscilla NPO2‑92/p.168
Pani, Roberto M16‑20/p.228
NPO2‑232/p.178
N43‑8/p.193
M16‑18/p.228
Pani, Silvia M13‑23/p.216
Panin, Vladimir Y.
M04‑2/p.156
M02‑2/p.155
M23‑1/p.249
M24‑5/p.257
Panjkovic, Goran NPO2‑224/p.178
Pansart, J.‑P.NPO1‑61/p.122
Pantaleo, Felice NPO2‑204/p.176
Pantano, Devis N22‑2/p.147
NPO1‑5/p.117
Paoletti, Riccardo NPO2‑162/p.174
N21‑6/p.147
Paolucci, Massimiliano NPO1‑167/p.130
Paolucci, Pier S.NPO2‑204/p.176
Paoluzzi, Giovanni N44‑6/p.194
N17‑3/p.111
Papa, Angela NPO1‑141/p.128
Papadimitropoulos, Christos R05‑43/p.138
Papenhausen, Eric T
M18‑71/p.239
M12‑34/p.212
Pappalardo, Guiseppe N22‑1/p.147
Papucharov, Atanas M21‑17/p.241
Parages, Felipe M.
M18‑60/p.239
Pardo, Ana C.M11‑6/p.204
Park, Alexander H
NPO2‑125/p.171
NPO2‑127/p.171
Park, Byung Gi NPO1‑60/p.122
Park, Changyul R05‑24/p.137
Park, H. R04‑7/p.95
NPO1‑54/p.121
NPO1‑97/p.124
N12‑8/p.108
Park, Hanho M21‑54/p.244
M21‑44/p.243
M21‑53/p.244
Park, Hye‑Suk M12‑7/p.210
Park, Hyun Jin M23‑34/p.251
M23‑33/p.251
Park, Hyung Dal NPO2‑7/p.161
NPO2‑4/p.161
NPO2‑6/p.161
NPO2‑5/p.161
Park, Hyun‑Wook M12‑46/p.213
M12‑40/p.212
Park, Il Hung NPO1‑7/p.117
NPO2‑125/p.171
NPO1‑98/p.125
NPO2‑123/p.170
M21‑56/p.244
Park, Jae‑Chul NPO2‑216/p.177
Park, Jang‑Guen R12‑4/p.202
Park, Ji Ae M23‑44/p.252
Park, Ji Won M22‑46/p.248
Park, Jin Hyung N11‑5/p.107
Park, Jong Hoon N11‑5/p.107
Park, Jongmoon N26‑3/p.150
Park, Jun Ho M16‑57/p.231
Park, June‑Sic R14‑2/p.203
Park, Justin C. M12‑2/p.210
Park, Kunsik N26‑3/p.150
Park, Kyeongjin NPO1‑163/p.130
NPO1‑139/p.128
NPO1‑161/p.129
NPO2‑213/p.177
NPO1‑140/p.128
NPO1‑137/p.128
Park, Mi‑Ae M14‑6/p.223
M18‑44/p.237
M25‑1/p.257
M16‑3/p.227
M23‑16/p.250
M03‑5/p.156
Park, Min Jae M11‑69/p.209
Park, Minseok NPO1‑138/p.128
Park, Miran M22‑39/p.248
Park, Nohwon M18‑19/p.235
Park, Ryan M23‑2/p.249
Park, Se‑Hwan R14‑2/p.203
Park, Seungwoo M18‑41/p.237
M18‑19/p.235
Park, Seyjoon M07‑5/p.198
M21‑14/p.241
Park, Seyoung NPO1‑138/p.128
Park, Soeun M12‑22/p.211
Park, Soon Ho NPO2‑14/p.162
Park, Soonyoung NPO2‑23/p.162
Park, Su‑Jin M11‑58/p.208
Park, Sung Keun N5‑5/p.90
N19‑5/p.145
Park, Sung Yong M21‑23/p.242
Park, Tae Soon NPO2‑60/p.166
NPO1‑84/p.123
Park, Tae Sun NPO2‑142/p.172
NPO1‑179/p.131
Parker, Joseph D.
NPO2‑122/p.171
N10‑2/p.106
Parl, Christoph M11‑30/p.206
Parmar, Arvind M13‑12/p.215
Parnham, Kevin M12‑55/p.214
Parodi, Katia M21‑6/p.240
HT3‑7/p.81
M07‑3/p.198
HT3‑4/p.81
M21‑12/p.241
M19‑2/p.224
Parot, Vicente M13‑2/p.214
M18‑44/p.237
M16‑26/p.228
M03‑5/p.156
Parsani, Tommaso N26‑4/p.150
Parsons, Ann M.NPO2‑126/p.171
Parzefall, Ulrich N41‑4/p.192
R01‑8/p.93
Patay, Gergely M13‑6/p.214
Patel, Arpit NPO2‑118/p.170
Paterson, David NPO2‑112/p.170
Pato, Lara RM13‑17/p.215
Pattison, Phil N46‑4/p.195
Paul, Stephan N33‑2/p.186
Paulson, Cameron NPO2‑42/p.
Pausch, Guntram M21‑11/p.241
M19‑3/p.224
NPO2‑64/p.166
Pauwels, Bart M20‑5/p.225
Pauwels, Kristof N36‑6/p.188
Pavlov, Nikolai J1‑2/p.114
Pavlovsky, Ryan T.
J4‑5/p.160
Pawelczak, Iwona A.
N20‑2/p.146
Pawlak, Dariusz M13‑31/p.216
Payne, Stephen N12‑4/p.107
N12‑6/p.107
Pearce, Mark N39‑6/p.190
N9‑4/p.105
N9‑5/p.105
Pearson, Erik A.M21‑20/p.241
M22‑8/p.246
Pedash, Vyacheslav NPO1‑168/p.130
Pedersen, Bent NPO1‑190/p.132
Pedersen, Henrik N7‑8/p.92
Pedreschi, Elena NPO2‑204/p.176
NPO2‑196/p.176
NPO2‑83/p.167
Pedretti, MmN38‑1/p.189
Peerani, Paolo N39‑2/p.190
Pejchal, Jan N4‑4/p.90
NPO1‑35/p.120
NPO1‑34/p.119
NPO1‑70/p.122
NPO1‑53/p.121
Pelizzari, Charles Am
M22‑8/p.246
M21‑20/p.241
Pellegri, Luna NPO1‑15/p.118
Pellegrini, Giulio NPO2‑72/p.166
Pellegrino, Antonio N33‑4/p.186
Pelosi, Alessandro N2‑1/p.88
Peloso, Roberta NPO2‑77/p.167
NPO2‑121/p.170
M21‑40/p.243
Peltonen, Sari M23‑28/p.251
Pelzer, Georg M12‑8/p.210
Peng, Hao M18‑61/p.239
Peng, Qiyu M16‑30/p.229
M11‑1/p.204
M03‑1/p.156
M11‑14/p.205
Peng, Wen XNPO2‑117/p.170
Peng, Xiang M18‑65/p.239
Pengvanich, Phongphaeth M18‑33/p.236
Pennicard, David N30‑5/p.153
M21‑60/p.244
Pentenero, Jerome NPO1‑224/p.134
Pepe, Monica N43‑3/p.193
Pepino, Aurora NPO2‑200/p.176
NPO1‑126/p.127
Pepp, Zoltan M02‑3/p.155
Perali, Irene M21‑2/p.240
HT2‑6/p.80
Peralva, Bernardo Sm
N21‑4/p.147
Pereira, Antonio NPO1‑69/p.122
Perenzoni, Matteo N34‑8/p.187
N8‑6/p.92
M14‑3/p.223
M02‑3/p.155
Perevertaylo, Vladimir L
NPO2‑51/p.165
NPO2‑55/p.165
NPO2‑48/p.164
Pereymak, Vitaliy N
NPO1‑187/p.131
Perez Barthaburu, Maria R05‑13/p.136
Perez Galvan, A N38‑1/p.189
Perez, Jose Manuel NPO2‑208/p.177
M16‑48/p.230
Perez, Kerstin NPO2‑128/p.171
Perez, Patrice NPO1‑61/p.122
Peric, Ivan N22‑3/p.147
Perktold, Lukas N14‑2/p.109
Perl, Joseph N18‑4/p.112
Peroni, Cristiana HT1‑3/p.79
Perreira, Carlos NPO1‑182/p.131
Perry, John O.NPO1‑115/p.126
NPO2‑78/p.167
N38‑5/p.190
N42‑1/p.192
Pessina, Gianluigi NPO2‑71/p.166
NPO2‑217/p.177
NPO2‑159/p.173
Pestotnik, Rok NPO1‑153/p.129
NPO1‑110/p.125
Petasecca, Marco RD2‑8/p.83
NPO2‑57/p.165
RD2‑9/p.83
NPO2‑51/p.165
NPO2‑48/p.164
NPO2‑44/p.164
M21‑35/p.243
HT3‑10/p.81
N19‑4/p.145
NPO2‑56/p.165
M11‑46/p.207
HT3‑9/p.81
N28‑8/p.152
NPO2‑55/p.165
Peter, Joerg M18‑20/p.235
Peterson, Todd EM11‑57/p.208
M14‑5/p.223
Peterson, William T.
NPO2‑231/p.178
M12‑44/p.213
Petibon, Yoann M05‑3/p.196
Petrossian, Ludvig NPO2‑233/p.178
NPO2‑201/p.176
Petrosyan, Gevorg NPO2‑201/p.176
NPO2‑233/p.178
Petrosyan, Vahan NPO2‑201/p.176
NPO2‑233/p.178
Petrovic, Ivan HT1‑5/p.79
Petzoldt, Johannes NPO2‑64/p.166
Pfeiffer, Andreas N45‑8/p.195
Pfeiffer, Franz M23‑13/p.250
M21‑60/p.244
M20‑7/p.225
M20‑5/p.225
M20‑6/p.225
M12‑21/p.211
Phlips, Bernard F.
N37‑6/p.189
NPO2‑41/p.164
N1‑3/p.87
Phonapha, Sarayut M16‑27/p.228
Pia, Maria Grazia NPO2‑141/p.172
N29‑5/p.153
N45‑8/p.195
N6‑8/p.91
N29‑4/p.153
N29‑6/p.153
N18‑5/p.112
Piacentini, Giovanni R10‑6/p.159
Piana, Angelo NPO1‑87/p.124
Piandani, Roberto NPO2‑196/p.176
N43‑3/p.193
NPO2‑204/p.176
Picard, Y.NPO1‑192/p.132
Piccini, Mauro N43‑3/p.193
Picciotto, Antonino NPO2‑121/p.170
J4‑8/p.160
Pichler, Bernd J.M18‑24/p.236
M11‑30/p.206
N21‑2/p.147
M24‑4/p.257
M05‑2/p.196
Pichotka, Martin P
J3‑3/p.115
R05‑49/p.139
Pieczynski, Wojciech M18‑54/p.238
Piemonte, Claudio N8‑1/p.92
M21‑40/p.243
J1‑7/p.114
N8‑7/p.92
M14‑2/p.223
J4‑8/p.160
M21‑36/p.243
NPO2‑121/p.170
NPO2‑77/p.167
N8‑8/p.92
Pierce, Larry A.M13‑11/p.215
Pietropaolo, Antonino N42‑5/p.193
NPO2‑158/p.173
Pietryga, Jeffrey M.
N34‑6/p.187
Pietrzyk, Uwe M22‑21/p.247
M18‑28/p.236
Piliero, Maria Antonietta J2‑2/p.115
Pilipp, Volker N46‑2/p.195
Pillon, Mario N42‑5/p.193
Pines, Jack NPO2‑111/p.169
NPO2‑113/p.170
NPO2‑114/p.170
Pinot, Laurent M16‑43/p.230
M09‑8/p.200
M11‑34/p.206
Pinsky, Lawrence S.
RD1‑1/p.82
NPO1‑135/p.127
Pinzino, Jacopo NPO2‑196/p.176
Piparo, Danilo N6‑7/p.91
Pirard, Benoit NPO2‑95/p.168
NPO1‑183/p.131
NPO2‑65/p.166
Pirovano, Claudio NPO1‑90/p.124
NPO1‑223/p.134
Pirrone, Giovanni J2‑2/p.115
Piscitelli, Francesco N23‑3/p.148
N23‑7/p.148
NPO1‑213/p.134
Pistorius, Stephen M06‑6/p.197
M18‑22/p.236
Pivovaroff, Michael J.
N25‑7/p.150
NPO2‑13/p.162
Piwowarska‑Bilska, Hanna M13‑31/p.216
Pizzichemi, Marco M12‑58/p.214
Placidi, Pisana NPO1‑167/p.130
Platkevic, Michal J3‑4/p.115
Platsch, Guenther M08‑1/p.198
Plautz, Tia N19‑1/p.145
Plenteda, Romano N39‑2/p.190
Pleshko, Anatoly N8‑3/p.92
Poehlsen, Thomas R07‑1/p.113
N41‑6/p.192
Poenisch, Falk M02‑1/p.155
Poeschl, Roman N35‑2/p.187
Pohl, Martin NPO2‑69/p.166
N9‑3/p.105
Poikela, Tuomas N14‑5/p.109
Poirot, Marc M13‑13/p.215
Pola, Andrea NPO1‑223/p.134
Polak, Ivo NPO2‑90/p.168
Poletti, Martin EM12‑11/p.210
NPO2‑50/p.165
M12‑12/p.210
Polf, Jerimy CHT2‑5/p.80
Polkovnikov, Mikhail K
R05‑46/p.139
Pollacco, Emanuel C
N17‑8/p.111
Poltorak, Karolina N14‑2/p.109
Polycarpou, Irene M10‑1/p.200
M18‑5/p.234
M23‑37/p.252
Pomm, Matthias N7‑2/p.91
Pomper, Martin G.
R06‑3/p.113
M01‑2/p.155
Pompili, Fulvio N42‑5/p.193
Poon, Jonathan M03‑1/p.156
Poperenko, Leonid V.
R05‑23/p.137
Popova, Elena N8‑3/p.92
Poprocki, Stephen N44‑1/p.194
Porro, Matteo NPO2‑105/p.169
N33‑7/p.186
N46‑5/p.195
Porter, John N3‑2/p.89
Porter, Timothy R14‑6/p.203
Porumb, Claudiu S
NPO2‑57/p.165
NPO2‑51/p.165
NPO2‑48/p.164
Pospisil, Stanislav RD1‑1/p.82
NPO1‑135/p.127
N19‑4/p.145
RD2‑8/p.83
NPO2‑56/p.165
N43‑7/p.193
Potdevin, Guillaume M21‑60/p.244
M23‑13/p.250
Pothin, Daniel NPO1‑69/p.122
Potiriadis, Constantinos R05‑43/p.138
Poulsen, Per M21‑10/p.241
Poumarede, Benedicte M22‑49/p.249
Pouthas, Joel N16‑4/p.110
Povoli, Marco N41‑1/p.192
R05‑39/p.138
Powell, Keith R05‑44/p.139
R01‑4/p.93
Pozzi, Sara N20‑3/p.146
Pozzobon, Nicola NPO1‑5/p.117
Pradel, Ken NPO1‑222/p.134
Pradier, Olivier M07‑6/p.198
Praetzel, Engelhard N23‑6/p.148
N7‑2/p.91
Pratte, Jean‑Francois J1‑5/p.114
Praus, Petr R15‑1/p.226
R05‑40/p.138
Presotto, Luca M23‑24/p.251
Press, Oliver W.M14‑1/p.223
Preston, Rhys NPO2‑19/p.162
Prestopino, Giuseppe N42‑5/p.193
Pretorius, P. Hendrik M18‑60/p.239
Preuhs, Timm NPO2‑176/p.175
Previtali, Ezio NPO1‑181/p.131
Prevrhal, Sven M22‑23/p.247
Prieels, Damien M21‑2/p.240
HT2‑6/p.80
M19‑2/p.224
Prochazka, Andrej NPO1‑129/p.127
Procz, Simon R05‑49/p.139
J3‑3/p.115
Produit, Nicolas NPO2‑69/p.166
N9‑3/p.105
R05‑50/p.139
Proffitt, James M12‑43/p.212
M11‑19/p.205
Prokesch, Michael R13‑7/p.202
R06‑2/p.113
R02‑2/p.94
R15‑6/p.226
Prokopovich, Dale A.
N28‑8/p.152
HT3‑10/p.81
RD1‑9/p.82
R03‑8/p.95
HT3‑9/p.81
M13‑15/p.215
Proksa, Roland PC2‑2/p.97
Protic, David N30‑8/p.154
Protic, Davor N30‑7/p.154
Prout, David LM11‑33/p.206
M09‑3/p.199
M19‑1/p.224
Prusa, Petr N4‑8/p.90
Puddu, Silvia RD1‑5/p.82
N39‑3/p.190
NPO1‑113/p.126
Puggioni, Carlo N22‑1/p.147
Pugh, Thomas RD2‑1/p.83
Pugliatti, Cristina N19‑2/p.145
HT2‑2/p.79
Puig, Albert N44‑2/p.194
Puigdengoles, Carles J3‑7/p.116
R06‑6/p.113
Puill, Veronique N13‑8/p.108
M16‑43/p.230
Purschke, Martin L.
N2‑4/p.88
M16‑22/p.228
M21‑52/p.244
N33‑6/p.186
Pusa, Petteri NPO2‑68/p.166
Pusuwan, Pawana M23‑18/p.250
M23‑21/p.250
Pysz, Krzysztof NPO2‑176/p.175
Q
Qi, Guo NPO2‑160/p.173
Qi, Jinyi M03‑1/p.156
M05‑1/p.196
M17‑3/p.231
M04‑8/p.157
M16‑1/p.227
M17‑40/p.234
Qi, Yujin M21‑35/p.243
NPO2‑26/p.163
Qian, Hua M22‑11/p.246
Qian, Sen N24‑2/p.149
Qin, Binjie M18‑69/p.239
M18‑68/p.239
Qin, Laishun NPO1‑56/p.121
Quaglia, Riccardo NPO2‑77/p.167
J4‑8/p.160
M21‑40/p.243
NPO2‑121/p.170
Quaranta, Alberto R05‑39/p.138
Queiroz, Gloria R.
NPO2‑140/p.172
Quintieri, Lina N2‑1/p.88
Quinto, Michele NPO2‑170/p.174
Quinto, Michele A.
M22‑30/p.247
Quirin, Pascal NPO2‑95/p.168
NPO1‑183/p.131
R
Ra, Jong Beom M18‑49/p.238
M18‑3/p.234
M17‑35/p.233
Raashid, M. NPO2‑62/p.166
NPO2‑1/p.161
Rachevski, Alexandre M21‑45/p.243
N14‑8/p.109
Radicci, Valeria N46‑4/p.195
R03‑4/p.94
N46‑2/p.195
Radicioni, Emilio NPO2‑170/p.174
Radley, Ian R01‑4/p.93
R05‑44/p.139
R14‑3/p.203
R01‑6/p.93
R15‑5/p.226
Rafecas, Magdalena M21‑24/p.242
M11‑44/p.207
M11‑45/p.207
M21‑22/p.242
M21‑3/p.240
M07‑4/p.198
M11‑40/p.207
Rah, Seungyu N30‑1/p.153
Rahmim, Arman M06‑2/p.197
M24‑6/p.257
M11‑42/p.207
M13‑22/p.216
M15‑7/p.224
Rahni, Ashrani AM10‑3/p.200
Rajruangrabin, Jartuwat M22‑24/p.247
M22‑17/p.246
M12‑4/p.210
Ramberg, Erik M09‑2/p.199
M16‑56/p.231
NPO1‑87/p.124
Ramey, Joanne O
NPO1‑47/p.121
Ramirez, Rocio M23‑4/p.249
M11‑10/p.204
M23‑26/p.251
M18‑2/p.234
Ramm, Michael M16‑46/p.230
M11‑28/p.206
Ramstad, Jan Erik NPO2‑210/p.177
NPO2‑211/p.177
Randazzo, Nunzio N19‑2/p.145
HT2‑2/p.79
Rangacharyulu, C. M16‑27/p.228
Ranieri, Antonio N2‑1/p.88
Ranjbar, Leila NPO2‑16/p.162
Rankine, Leith J.M24‑7/p.257
Rannou, Fernando R.
M22‑29/p.247
M13‑9/p.215
Rapin, Divic NPO2‑69/p.166
N9‑3/p.105
Rarenko, Ilarii R05‑3/p.135
Rashed, Essam A.
M05‑7/p.196
Ratcliff, Blair N43‑1/p.193
NPO1‑157/p.129
Rato‑Mendes, Pedro NPO2‑208/p.177
M16‑48/p.230
Ratti, Lodovico NPO1‑8/p.117
NPO2‑228/p.178
NPO2‑222/p.178
Raux, Ludovic M16‑43/p.230
Ravindranath, Bosky J1‑1/p.114
M22‑26/p.247
M11‑47/p.207
Ray, Paul SN1‑3/p.87
Raylman, Raymond R.
M12‑43/p.212
M11‑19/p.205
Re, Valerio NPO2‑228/p.178
NPO1‑8/p.117
NPO2‑222/p.178
Reader, Andrew J.
4D2‑1/p.96
M23‑19/p.250
M17‑29/p.233
M24‑6/p.257
M23‑30/p.251
M23‑45/p.252
M06‑1/p.197
M23‑36/p.251
Rebound, Vincent M02‑3/p.155
Reed, Robert NPO2‑197/p.176
Reese, Benjamin N30‑4/p.153
Reglero, Victor NPO2‑123/p.170
Regmi, Murari NPO1‑217/p.134
Rehlich, Kay NPO2‑233/p.178
NPO2‑201/p.176
Reid, Chantal D.NPO2‑54/p.165
N19‑6/p.145
Reidt, Felix N22‑1/p.147
N22‑2/p.147
Reilhac, Anthonin M11‑43/p.207
M13‑12/p.215
Reims, Nils N37‑3/p.189
Reinecke, Mathias N35‑3/p.187
Reinhard, Mark I.
RD1‑9/p.82
NPO2‑25/p.163
HT3‑10/p.81
N28‑8/p.152
HT3‑9/p.81
R03‑8/p.
M13‑15/p.215
Reinhardt, Dirk M23‑38/p.252
Reis, David A.NPO2‑110/p.169
Reis, Jos C.NPO2‑140/p.172
Reiser, Ingrid M22‑5/p.246
M12‑32/p.212
Rella, Simona NPO1‑126/p.127
Ren, Guohao NPO1‑56/p.121
NPO1‑16/p.118
NPO1‑14/p.118
Renier, Michel NPO2‑106/p.169
Renis, Marcella HT1‑5/p.79
Renker, Dieter M21‑60/p.244
Renstrom, Therese N16‑7/p.111
Repond, Jose N2‑7/p.89
Resanovic, Rajko R05‑48/p.139
Rescia, Sergio M11‑67/p.209
Resnati, Filippo N20‑8/p.146
N20‑5/p.146
Rethfeldt, Christoph NPO1‑224/p.134
Retiere, Fabrice M12‑41/p.212
NPO1‑109/p.125
M16‑42/p.229
M11‑26/p.206
Retire, Fabrice M21‑34/p.243
Reymond, Jean‑Marc NPO1‑61/p.122
Reyna, David N15‑3/p.110
Reynolds, Paul D.
M11‑20/p.205
M25‑4/p.258
Rezaei, Ahmadreza M19‑5/p.225
M04‑1/p.156
Reznik, Alla R11‑6/p.201
Rhee, Dong Joo M13‑24/p.216
Rhee, Jehyuk R05‑31/p.137
Rhee, June‑Tak M12‑48/p.213
NPO1‑207/p.133
NPO1‑206/p.133
Riboldi, Stefano NPO1‑21/p.118
NPO2‑182/p.175
NPO1‑20/p.118
NPO1‑15/p.118
Riccio, Filippo N26‑4/p.150
Richter, Daniel HT3‑4/p.81
M21‑12/p.241
Richter, Robert N44‑5/p.194
N40‑8/p.191
Riddle, William R.
M18‑9/p.235
Riedel, Richard A.
N23‑1/p.148
Riedler, Petra N22‑2/p.147
N22‑1/p.147
Rieger, Jens M12‑8/p.210
Riess, Christian M22‑14/p.246
Rigie, David S.M19‑7/p.225
Rigla, Juan Pablo M11‑6/p.204
M17‑20/p.232
M22‑7/p.246
M11‑27/p.206
NPO2‑76/p.167
NPO2‑73/p.167
Rignanese, Luigi Pio M13‑29/p.216
Riklund, Katrine M23‑32/p.251
M18‑47/p.238
Rimoldi, Adele NPO2‑132/p.171
Rinaldi, Ilaria M21‑6/p.240
Ring, Terry A.NPO2‑12/p.162
Riou, Laurent J3‑6/p.116
Ripa, Jakub NPO2‑123/p.170
Ripamonti, Giancarlo NPO2‑167/p.174
NPO2‑166/p.174
NPO2‑168/p.174
NPO2‑192/p.176
NPO2‑194/p.176
Rissi, Michael N46‑2/p.195
N46‑4/p.195
Ristic‑Fira, Aleksandra HT1‑5/p.79
Ritman, James NPO2‑176/p.175
Ritt, Stefan N21‑2/p.147
Rittenbach, Andrew J.
M11‑55/p.208
M11‑53/p.208
M21‑65/p.245
M12‑55/p.214
Ritter, AndreM12‑8/p.210
Ritter, Ina RD2‑10/p.83
Ritzert, Michael J1‑4/p.114
Rivera, Ryan N44‑1/p.194
Rivetti, Angelo NPO2‑221/p.178
Roberts, Douglas NPO1‑157/p.129
Robertson, Dan HT3‑6/p.81
Robertson, Gideon N3‑2/p.89
Robini, Marc C.M21‑31/p.242
Robinson, D. NPO2‑51/p.165
Robinson, Mareena K.
NPO2‑9/p.161
Rocha‑Leao, Cedric R04‑3/p.95
Rochez, Jacques NPO2‑96/p.168
Rockne, Russell C.
M13‑30/p.216
Roderick, Chris N6‑1/p.91
Rodet, Thomas M17‑7/p.231
Rodrigues, Eduardo N41‑7/p.192
N5‑7/p.90
Rodrigues, Miesher L.
M24‑3/p.257
M21‑43/p.243
Rodriguez, Joaquin NPO2‑72/p.166
Rodriguez‑Alvarez, Maria Jose M11‑27/p.206
M22‑7/p.246
M11‑6/p.204
NPO2‑76/p.167
NPO2‑73/p.167
M17‑20/p.232
Rodriguez‑Villafuerte, Mercedes M11‑65/p.209
M11‑37/p.207
Roecker, Caleb N15‑3/p.110
Roellinghoff, Frauke HT2‑6/p.80
M21‑2/p.240
M19‑2/p.224
Roemer, Katja NPO2‑64/p.166
Rogers, Baxter M18‑9/p.235
Roh, Christine K.
M16‑27/p.228
Rohling, Heide M21‑22/p.242
NPO2‑64/p.166
M21‑11/p.241
M19‑3/p.224
Rohr, Pierre M09‑4/p.199
Rollet, Sofia RD1‑7/p.82
Rolo, Manuel D.M16‑49/p.230
NPO2‑221/p.178
Rolo, Tomy N12‑4/p.107
NPO1‑45/p.120
Romano, Francesco N19‑2/p.145
HT2‑2/p.79
HT1‑5/p.79
Romanov, Leonid V
M16‑52/p.230
Roncali, Emilie M16‑7/p.227
M16‑8/p.227
Ronchin, Sabina R05‑39/p.138
Rong, Junyan M12‑36/p.212
M17‑25/p.233
Rong, Xing M03‑8/p.156
Ronzhin, Anatoly NPO1‑87/p.124
NPO1‑1/p.117
NPO2‑164/p.174
M16‑56/p.231
M09‑2/p.199
Rooh, Gul NPO1‑54/p.121
NPO1‑24/p.119
N12‑8/p.108
Ros, Domenec M18‑21/p.236
Rosenfeld, Anatoly B.
RD2‑9/p.83
NPO2‑51/p.165
NPO2‑57/p.165
M21‑35/p.243
NPO2‑44/p.164
NPO2‑56/p.165
HT4‑1/p.81
N19‑1/p.145
NPO2‑26/p.163
N19‑4/p.145
HT3‑9/p.81
M11‑46/p.207
NPO2‑55/p.165
NPO2‑48/p.164
N28‑8/p.152
HT3‑10/p.81
RD1‑9/p.82
RD2‑8/p.83
Rosier, Philippe N16‑4/p.110
Ross, Christoph N30‑7/p.154
N30‑8/p.154
Ross, Stephen K.N12‑2/p.107
Ross, Steven G.M10‑8/p.200
Rossetti, Davide NPO2‑204/p.176
N44‑1/p.194
Rossi, Pier Luca M13‑29/p.216
Rota Kops, Elena M12‑51/p.213
Rothermund, Mario N30‑5/p.153
Rothfuss, Harold E.
NPO1‑46/p.120
M02‑2/p.155
M24‑1/p.257
Rott, Carsten N9‑1/p.105
Rousseau, Caroline M23‑20/p.250
Rousset, Jerome N22‑2/p.147
Rovelli, Tiziano NPO1‑68/p.122
Rowe, Emmanuel R14‑5/p.203
Rowlands, John M21‑42/p.243
R11‑6/p.201
Rowlands, John A
J3‑8/p.116
R12‑2/p.201
Roy Choudhury, Kingshuk M23‑17/p.250
Roy, Utpal R10‑4/p.159
R05‑22/p.136
R05‑41/p.138
R09‑3/p.158
J4‑3/p.160
R05‑21/p.136
R02‑1/p.93
R06‑3/p.113
R05‑28/p.137
R13‑3/p.202
Roy, Utpal NR13‑5/p.202
R05‑16/p.136
Roy, Utpol NR13‑4/p.202
R05‑11/p.136
Rozanov, Alexandre NPO1‑6/p.117
Rtz, Dominik N38‑3/p.190
Ruan, Lijuan NPO1‑118/p.126
Ruat, Marie R03‑8/p.
Rubbia, Andre N20‑5/p.146
N20‑8/p.146
Rubin, Daniel R02‑4/p.94
Rubinov, Paul HT2‑3/p.80
Rudell, Jacques C.
M09‑5/p.200
Rudge, Alan J1‑3/p.114
Ruetten, Walter J2‑7/p.115
Rui, Xue M12‑27/p.211
M06‑7/p.197
Rumaiz, Abdul N30‑8/p.154
Rumiantzev, Michail NPO1‑119/p.126
Ruotsalainen, Ulla M23‑28/p.251
M15‑5/p.224
Russo, Germano HT1‑3/p.79
Russo, Stefano NPO1‑85/p.124
Russomando, Andrea M21‑67/p.245
Rutczynska, Aleksandra NPO2‑69/p.166
N9‑3/p.105
Ruth, Thomas M16‑29/p.229
Rybka, Alexandr V.
R05‑36/p.138
Rybka, Dominik NPO2‑69/p.166
N9‑3/p.105
NPO2‑183/p.175
Ryden, Chris N15‑1/p.110
Ryder, William J.
M13‑15/p.215
M18‑13/p.235
M22‑18/p.246
M18‑26/p.236
Rydstrom, Stefan N39‑6/p.190
N9‑4/p.105
Ryu, Hyun Ju M11‑53/p.208
S
Saam, Tobias M20‑7/p.225
Saari, Jouni NPO2‑119/p.170
Sabatini, Fabrizio NPO2‑184/p.175
Sacchi, Roberto HT1‑3/p.79
Sacco, Ilaria N8‑8/p.92
Sacquin, Yves NPO1‑61/p.122
Sadrozinski, Hartmut F.
N19‑1/p.145
Safavi‑Naeini, Mitra M11‑46/p.207
N19‑4/p.145
RD2‑8/p.83
Sahoo, Naryan HT3‑6/p.81
Sahrim, Musab M18‑66/p.239
Sa‑Ing, Vera M12‑4/p.210
Saito, Kiwamu NPO1‑121/p.126
N28‑7/p.152
Saito, Naohito NPO2‑220/p.178
Sakaguchi, Takuya M23‑41/p.252
M23‑40/p.252
Sakasai, Kaoru NPO1‑26/p.119
NPO1‑211/p.133
Sakashita, Yoshinori NPO1‑153/p.129
Sakaue, Kazuyuki NPO2‑2/p.161
NPO2‑3/p.161
Sakhelashvili, Tariel N46‑2/p.195
R03‑4/p.94
Sako, Takashi NPO2‑175/p.174
Sakuma, Hajime M23‑42/p.252
Sakumura, Takuto NPO1‑146/p.128
Sakurai, Hiroyoshi NPO1‑59/p.121
Sakuta, Keita M21‑15/p.241
Sala, Elena NPO1‑181/p.131
Sala, Guillaume M05‑4/p.196
Sala, Paola R.M21‑24/p.242
Salamon, Andrea N17‑3/p.111
N44‑6/p.194
Salamon, Michael N37‑3/p.189
Salas‑Bautista, Noemi M11‑65/p.209
Salazar, Victor G.
NPO2‑50/p.165
Salcin, Esen R03‑7/p.94
Salina, Gaetano N44‑6/p.194
N17‑3/p.111
Salomon, AndréM17‑2/p.231
M12‑42/p.212
Salomon, Andre F.
M11‑62/p.209
Salvado, Debora M12‑56/p.214
M17‑15/p.232
Salvadori, Piero M25‑8/p.258
Salwen, Cynthia N11‑1/p.106
Samadi, Nazanin M12‑6/p.210
NPO2‑107/p.169
Samedov, Victor V.
NPO1‑43/p.120
Sami, Vahanen NPO1‑133/p.127
Sampath, Poornima M11‑32/p.206
Sampson, Janet A.
NPO2‑68/p.166
Samulon, Eric C.
NPO1‑78/p.123
N4‑7/p.90
Sanada, Shigeru M21‑15/p.241
Sanami, Toshiya NPO1‑31/p.119
NPO1‑121/p.126
Sanchez, Adrian A.
M22‑28/p.247
Sanchez, Filomeno M16‑40/p.229
M11‑6/p.204
M17‑20/p.232
NPO2‑76/p.167
M11‑27/p.206
NPO2‑73/p.167
M22‑7/p.246
Sanchez, Marcos N3‑2/p.89
Sandison, George A.
M21‑29/p.242
Sandmaier, Brenda M.
M14‑1/p.223
Sandoval, Veronica M23‑6/p.249
Sanfilippo, Delfo NPO1‑87/p.124
Sano, Yuji N42‑1/p.192
Santagati, Gianluca N22‑1/p.147
Santelj, Luka NPO1‑153/p.129
Santeramo, Bruno NPO2‑149/p.172
Santoro, Romualdo N20‑7/p.146
Santoro, Valentina NPO2‑158/p.173
Santos Ribeiro, Andre M12‑51/p.213
Santos, Ana C.M11‑50/p.208
Santovetti, Emanuele N17‑3/p.111
N44‑6/p.194
Sapor, Maria NPO2‑75/p.167
Saracco, Paolo G.
N29‑6/p.153
N29‑5/p.153
N18‑5/p.112
N29‑4/p.153
NPO2‑141/p.172
Sarasola, Iciar M16‑48/p.230
NPO2‑208/p.177
Sargeni, Fausto N44‑6/p.194
N17‑3/p.111
Sarraj, Maher J3‑7/p.116
Sarto, Francesca N42‑5/p.193
Sarukura, Nobuhiko NPO1‑83/p.123
Sasai, Keisuke M21‑9/p.240
Sasai, Yoshinori NPO2‑175/p.174
Sasaki, Osamu NPO2‑220/p.178
Sasaki, Shinichi N28‑7/p.152
NPO1‑121/p.126
Sasaki, Takashi NPO2‑130/p.171
HT3‑8/p.81
N18‑4/p.112
Sashala Naik, Alvin RD1‑7/p.82
Sasov, Alexander M20‑5/p.225
Satake, Ryota NPO2‑104/p.169
Sato, Goro J4‑4/p.160
Sato, Hiroki M21‑51/p.244
N4‑8/p.90
N12‑3/p.107
NPO1‑175/p.130
Sato, Kenichi NPO1‑89/p.124
N8‑2/p.92
Sato, Masanobu M12‑59/p.214
Sato, Masato NPO1‑50/p.121
Sato, Masugu NPO2‑101/p.169
NPO2‑100/p.169
Sato, Shinji M07‑2/p.198
HT3‑2/p.80
Sato, Yasushi N10‑2/p.106
NPO2‑122/p.171
Satoh, Hitoshi M12‑13/p.210
Satoh, Takahiro M21‑5/p.240
Sauer, Ken D,M22‑25/p.247
Sauli, Fabio NPO1‑125/p.127
Saull, Patrick R,NPO1‑147/p.128
Saunavaara, Virva M18‑23/p.236
Savard, Guy N38‑1/p.189
Saveliev, Valeri D,
N22‑4/p.147
Savitskyj, Andrii R05‑3/p.135
Sawada, Takayuki R04‑4/p.95
Sawano, Tatsuya N28‑2/p.152
NPO2‑122/p.171
M12‑10/p.210
N10‑2/p.106
Scandale, Walter N13‑8/p.108
Scaringella, Monica N19‑3/p.145
RD2‑3/p.83
N19‑2/p.145
HT2‑2/p.79
Schaart, Dennis R,
M21‑32/p.242
HT3‑7/p.81
M19‑2/p.224
J2‑5/p.115
HT2‑8/p.80
NPO1‑102/p.125
M21‑6/p.240
M11‑2/p.204
Schaefers, Klaus P.
M06‑5/p.197
M13‑7/p.214
M18‑37/p.237
M23‑38/p.252
Schafer, David N3‑1/p.89
Schaffer, Paul M16‑29/p.229
Schaknowski, Neil N11‑1/p.106
Schanne, Stephane N1‑5/p.88
N44‑7/p.194
Scheins, Juergen J.
M22‑2/p.245
M24‑2/p.257
M22‑21/p.247
Schellenberg, James M21‑62/p.245
Schelten, Jakob NPO1‑202/p.133
Schembari, Filippo M21‑40/p.243
Scheneider, Florian NPO1‑152/p.129
Schenk, Werner NPO1‑123/p.127
Schettino, Giuseppe HT1‑5/p.79
Schettino, Vinicius NPO2‑197/p.176
Scheuermann, Joshua M23‑8/p.249
Schiariti, Marco M21‑67/p.245
Schillaci, Francesco HT1‑5/p.79
Schlee, Stephan NPO2‑105/p.169
Schleuer, Joerg NPO1‑224/p.134
Schleyer, Paul J.M18‑17/p.235
M08‑4/p.199
M18‑42/p.237
Schlomka, Jens‑Peter R02‑3/p.94
R12‑6/p.202
Schlyer, David J.N33‑6/p.186
M16‑22/p.228
Schmall, Jeffrey P.
J1‑2/p.114
M09‑1/p.199
M16‑8/p.227
Schmand, Matthias NPO1‑103/p.125
Schmidt, Christian N16‑3/p.110
Schmidt, Holger M10‑5/p.200
Schmidt, Konrad M21‑11/p.241
Schmidtlein, C. R.
M23‑31/p.251
Schmitt, Bernd N30‑1/p.153
NPO1‑166/p.130
N46‑3/p.195
N14‑7/p.109
Schneebeli, Matthias N46‑2/p.195
R03‑4/p.94
N46‑4/p.195
Schneider, Florian R.
NPO1‑107/p.125
M11‑48/p.207
M11‑40/p.207
Schnittman, Jeremy N9‑6/p.105
Schnyder, Roger N46‑2/p.195
N46‑4/p.195
Schoelkopf, Bernhard M24‑4/p.257
Schoen, Tobias N37‑3/p.189
Schoene, Sebastian M21‑11/p.241
M19‑3/p.224
NPO2‑64/p.166
Schoening, Andre N17‑6/p.111
Schoepff, Vincent J3‑6/p.116
Scholze, Frank N34‑3/p.187
Schorr, Christian N37‑3/p.189
Schotanus, Paul NPO1‑71/p.122
Schreyer, Andreas NPO2‑47/p.164
N23‑6/p.148
N7‑2/p.91
Schroepfer, Stefan N37‑3/p.189
Schubert, Keith E.
N19‑1/p.145
Schuett, Sebastian R05‑4/p.135
Schug, David M12‑42/p.212
M11‑24/p.206
J2‑7/p.115
M16‑12/p.227
Schulte, Reinhard W.
HT2‑1/p.79
HT4‑1/p.81
HT1‑1/p.79
N19‑1/p.145
Schultz‑Coulon, Hans‑Christian NPO2‑229/p.178
J1‑4/p.114
Schultze, Blake N19‑1/p.145
Schulz, Christian NPO1‑224/p.134
NPO1‑201/p.133
Schulz, Volkmar M11‑62/p.209
J2‑7/p.115
M12‑42/p.212
M11‑24/p.206
M16‑12/p.227
M12‑47/p.213
M17‑2/p.231
Schumer, Joseph W.
NPO2‑41/p.164
Schwandt, Joern N30‑1/p.153
R07‑1/p.113
N14‑7/p.109
Schwegler, Philipp N40‑8/p.191
N44‑5/p.194
Schwemmer, Chris M18‑18/p.235
Schwengner, Ronald M19‑3/p.224
Scielzo, Nicholas D.
N38‑1/p.189
Scorzoni, Andrea NPO1‑167/p.130
Scoullar, Paul A.NPO2‑112/p.170
N21‑5/p.147
NPO2‑190/p.175
Scovell, Paul R.N39‑5/p.190
N42‑2/p.192
Scuderi, Valentina HT1‑5/p.79
Se, Stephen M10‑2/p.200
Seabury, Edward H.
N37‑5/p.189
N25‑6/p.150
Seddon, Dave NPO2‑68/p.166
Sedes, Gregory N9‑7/p.105
Sedivy, Lukas R05‑19/p.136
Segal, Julie D.N30‑4/p.153
NPO2‑98/p.168
NPO2‑110/p.169
Segars, W. Paul M06‑4/p.197
Segel, R. E.N38‑1/p.189
Seguin, Nathalie J2‑3/p.115
Seguinot, Jacques J1‑3/p.114
Seidel, Sally NPO1‑132/p.127
Seifert, Stefan J2‑5/p.115
M11‑2/p.204
NPO1‑102/p.125
Seiichi, Yamamoto N36‑4/p.188
Seimetz, Michael M17‑20/p.232
M22‑7/p.246
NPO2‑76/p.167
M11‑6/p.204
NPO2‑73/p.167
M11‑27/p.206
Seito, Hajime NPO1‑210/p.133
Seitz, Bjoern NPO1‑92/p.124
Seki, Mafuyu NPO1‑55/p.121
Sekiguchi, Yuko NPO1‑184/p.131
Sekimoto, Michiko NPO1‑120/p.126
Sekiya, Hiroyuki NPO1‑19/p.118
Seljak, Andrej NPO1‑153/p.129
Seller, Paul M13‑23/p.216
Semeniuk, Oleksii R11‑6/p.201
Semones, Edward J.
NPO1‑135/p.127
RD1‑1/p.82
Seo, Bum Kyung NPO1‑178/p.131
Seo, Chang‑Woo M12‑2/p.210
NPO1‑160/p.129
Seo, Hee N11‑5/p.107
R14‑2/p.203
Seo, Jiwoong NPO2‑91/p.168
Seo, Seongho M19‑4/p.224
Seo, Youngho N19‑7/p.145
R06‑3/p.113
R05‑41/p.138
Serdyuk, Valeriy NPO2‑176/p.175
Sergent, Frank N15‑4/p.110
Sergi, Antonino N43‑3/p.193
Serra, Nicola M14‑2/p.223
Servoli, Leonello NPO1‑167/p.130
Seto, Satoru R04‑4/p.95
Seto, Yasuyuki M21‑66/p.245
M11‑15/p.205
Severino, Clizia T.
RD1‑8/p.82
RD1‑6/p.82
Seya, Michio NPO1‑195/p.132
Sgouros, George M13‑32/p.216
M03‑8/p.156
Shah, Kanai S.R14‑4/p.203
R04‑1/p.95
N12‑6/p.107
NPO1‑47/p.121
N4‑3/p.90
M05‑1/p.196
N20‑3/p.146
R05‑26/p.137
M21‑50/p.244
Shah, N. JM22‑21/p.247
M18‑28/p.236
M24‑2/p.257
Shan, Bao C.M23‑43/p.252
Shanbagh, Dattesh M12‑50/p.213
Shang, Shanshan NPO1‑56/p.121
Shanmugam, M.NPO2‑136/p.172
NPO2‑118/p.170
NPO2‑70/p.166
Shao, Beibei NPO1‑174/p.130
Shao, Lingxiong M22‑23/p.247
Shao, Yiping M16‑54/p.230
M02‑1/p.155
NPO2‑157/p.173
M21‑26/p.242
M21‑8/p.240
Sharma, K. S.N38‑1/p.189
Sharma, Kriti S.M22‑37/p.248
Sharma, Shivcharan L.
NPO2‑153/p.173
Shaumat, Vincent N13‑8/p.108
Shcherbak, Larisa R05‑3/p.135
Shearer, Craig NPO1‑22/p.119
Shen, Le M12‑15/p.210
N25‑2/p.149
M17‑8/p.232
N19‑8/p.145
Shen, Wei NPO2‑229/p.178
J1‑4/p.114
Shen, Zeng‑Ming J2‑8/p.115
M21‑63/p.245
R06‑1/p.113
Shenton‑Taylor, Caroline N15‑7/p.110
NPO2‑17/p.162
Shepidchenko, Anna R05‑2/p.135
Sheviakov, Igor N30‑1/p.153
Shi, Feng N23‑2/p.148
Shi, Han M11‑14/p.205
M16‑30/p.229
Shi, Haoli N9‑3/p.105
NPO2‑69/p.166
Shi, Hongsheng NPO1‑56/p.121
Shi, Kuangyu M25‑7/p.258
Shi, Li NPO1‑119/p.126
NPO1‑114/p.126
Shi, Luyao M12‑37/p.212
Shi, Xintian N46‑3/p.195
N14‑7/p.109
N30‑1/p.153
Shi, Yun NPO1‑13/p.118
Shibata, Shouichi NPO2‑175/p.174
Shibukawa, Takuya NPO1‑120/p.126
Shiga, Tohru M18‑30/p.236
Shigeki, Ito M11‑35/p.206
Shikama, Tatsuo NPO1‑34/p.119
Shikata, Shinichi NPO2‑104/p.169
N34‑4/p.187
Shikaze, Yoshiaki NPO1‑151/p.129
NPO1‑210/p.133
Shikimura, Kouji NPO1‑50/p.121
Shima, Kazunari M12‑18/p.211
Shima, Tatsushi N16‑7/p.111
Shimada, Hirofumi M11‑21/p.205
M21‑5/p.240
Shimaoka, Mitsuyoshi NPO2‑130/p.171
Shimaoka, Takehiro NPO2‑104/p.169
N34‑4/p.187
N36‑5/p.188
Shimazaki, Hironobu M12‑18/p.211
Shimazoe, Kenji NPO2‑215/p.177
NPO1‑185/p.131
M11‑35/p.206
M11‑16/p.205
NPO1‑152/p.129
NPO1‑175/p.130
NPO1‑151/p.129
M11‑15/p.205
NPO1‑107/p.125
M21‑66/p.245
Shimizu, Kodai M05‑5/p.196
M12‑45/p.213
Shimizu, Toshihiko NPO1‑83/p.123
Shimosegawa, Eku M18‑70/p.239
Shimoyama, Tetsuya NPO2‑11/p.162
Shin, Dongho M21‑57/p.244
M07‑5/p.198
M21‑14/p.241
M21‑23/p.242
Shin, Hanback M13‑10/p.215
Shin, Hee‑Sung R14‑2/p.203
Shin, Jae Won NPO1‑176/p.131
NPO1‑177/p.131
NPO2‑142/p.172
NPO1‑179/p.131
Shin, Jae‑Ik M07‑5/p.198
M21‑14/p.241
Shin, Jung‑Wook R05‑7/p.135
R05‑9/p.135
Shin, Min‑Seok NPO1‑160/p.129
Shin, Sang Hun NPO1‑58/p.121
NPO1‑60/p.122
Shin, Tae Joo N27‑5/p.151
Shin, Taeksu NPO2‑85/p.167
Shinaji, Tetsuya M21‑25/p.242
M07‑1/p.197
HT3‑2/p.80
M21‑13/p.241
M11‑7/p.204
M11‑17/p.205
Shinzato, Yuki NPO1‑83/p.123
Shiozawa, Masato N24‑5/p.149
Shiraishi, Junji M18‑57/p.238
Shiraishi, Shinya M18‑57/p.238
Shiraishi, Takahiro M12‑52/p.213
Shiran, Mohammad Bagher M13‑22/p.216
Shirasaki, Kenji NPO1‑34/p.119
Shirato, Hiroki M21‑19/p.241
Shirwadkar, Urmila N4‑3/p.90
N20‑3/p.146
N12‑6/p.107
Shishido, Toetsu N4‑6/p.90
Shitov, Yuri N39‑5/p.190
N42‑2/p.192
Shiu, Jing‑Ge NPO2‑193/p.176
Shizuma, Toshiyuki NPO1‑72/p.122
NPO2‑27/p.163
NPO2‑30/p.163
Shkir, Mohammed R09‑2/p.158
Shlegel, Vladimir N.
NPO1‑37/p.120
Shoji, Tadayoshi R04‑2/p.95
R05‑1/p.135
Shoji, Yasuhiro NPO1‑82/p.123
N4‑6/p.90
N23‑4/p.148
NPO1‑81/p.123
Shokouhi, Sepideh M18‑9/p.235
M11‑57/p.208
Shorohov, Mihail R04‑4/p.95
Shortt, Brian N34‑3/p.187
NPO2‑121/p.170
Shu, Kangying NPO1‑56/p.121
Shultis, J. K.R14‑1/p.203
Si, Chin‑Hong M16‑6/p.227
Sibczynski, Pawel N20‑2/p.146
N12‑3/p.107
Sibille, Jennifer N13‑3/p.108
Sibomana, Merence M24‑6/p.257
Sicard, Gilles M09‑4/p.199
Siciliano, Edward R.
N39‑1/p.190
Siddhanta, Sabyasachi N22‑1/p.147
Siddiqi, Kaleem M23‑45/p.252
Siddons, D. Peter N30‑8/p.154
N14‑4/p.109
Sidky, Emil Y.M12‑33/p.212
M22‑33/p.247
M22‑32/p.247
M12‑32/p.212
M22‑6/p.246
M21‑20/p.241
M15‑1/p.223
M09‑7/p.200
M22‑5/p.246
M21‑68/p.245
M22‑28/p.247
Siebenson, Johannes N16‑3/p.110
Siegmund, Oswald H.
N39‑8/p.191
Siffert, Paul R13‑5/p.202
Signorelli, Giovanni NPO1‑141/p.128
Sihver, Lembit M07‑2/p.198
Silari, Marco RD1‑8/p.82
N39‑3/p.190
RD1‑5/p.82
RD1‑4/p.82
RD1‑2/p.82
RD1‑6/p.82
NPO1‑113/p.126
Silva, Jose Carlos M16‑49/p.230
Silva, Rui M16‑49/p.230
NPO2‑221/p.178
Silver, Michael D.
M09‑7/p.200
M21‑68/p.245
Simões, Hugo NPO1‑17/p.118
M21‑27/p.242
HT3‑7/p.81
NPO1‑134/p.127
Sim, Hyeok In NPO1‑60/p.122
Simo, Eranen NPO1‑133/p.127
Simon, Frank N35‑4/p.188
Simpson, Michael J.
M21‑62/p.245
Sina, Sedigheh RD2‑11/p.83
Sinclair, Laurel E.
NPO1‑147/p.128
Singh, Bipin N12‑2/p.107
J2‑1/p.114
M21‑41/p.243
Singh, Chandan K.
NPO1‑63/p.122
Singh, David J.R11‑7/p.201
Sinnott, Susan B.
R05‑8/p.135
Sinusas, Albert J.M23‑6/p.249
M10‑7/p.200
M18‑1/p.234
M11‑49/p.208
Sipala, Valeria HT2‑2/p.79
N19‑2/p.145
Sipila, Heikki N34‑3/p.187
Sirisalee, Pasu M12‑4/p.210
Sitek, Arkadiusz M18‑44/p.237
NPO2‑40/p.164
M04‑4/p.157
Sizun, Patrick N1‑5/p.88
Sklyarchuk, Valerij M.
R05‑36/p.138
Skogstad, Eirik NPO2‑129/p.171
Skretting, Arne M17‑39/p.234
Sliwa, Regis M16‑43/p.230
Smeets, Julien HT2‑6/p.80
M19‑2/p.224
M21‑2/p.240
Smith, Graham N11‑1/p.106
Smith, Jacob N2‑7/p.89
Smith, Mark F.N19‑6/p.145
NPO2‑52/p.165
NPO2‑54/p.165
Smith, Rhodri L.M18‑8/p.235
M10‑3/p.200
Smoljanin, Sergej N30‑5/p.153
M21‑60/p.244
Smoot, George FNPO2‑123/p.170
Snoeys, Walter NPO1‑5/p.117
N22‑2/p.147
N22‑1/p.147
Snyder, Scott R01‑7/p.93
So, J. H.NPO1‑65/p.122
Soares, Antonio J.
M11‑50/p.208
Soh, Myung Jin M16‑57/p.231
Soh, Seul Yi M16‑57/p.231
Sokhan, Daria N16‑4/p.110
Solans, Carlos NPO2‑197/p.176
Solaz, Carles M21‑22/p.242
NPO2‑177/p.175
M11‑44/p.207
M07‑4/p.198
M11‑41/p.207
Solc, Jaroslav N43‑7/p.193
Soldat, Jan NPO2‑105/p.169
N33‑7/p.186
Soldner, Stephen A
R15‑6/p.226
R06‑2/p.113
R13‑7/p.202
Solevi, Paola M11‑45/p.207
M21‑24/p.242
M21‑3/p.240
M07‑4/p.198
M21‑22/p.242
Solf, Torsten M11‑62/p.209
M11‑32/p.206
Solfaroli‑Camillocci, Elena M21‑67/p.245
Soltanian‑Zadeh, Hamid Reza M13‑22/p.216
Soltveit, Hans Kristian N17‑6/p.111
Somlai‑Schweiger, Ian NPO1‑152/p.129
NPO1‑107/p.125
M11‑40/p.207
Somogyi, Andrea NPO2‑102/p.169
Son, Jae Bum R01‑5/p.93
Son, Jae Man M21‑57/p.244
Son, Jeong Whan M16‑44/p.230
Son, Jungah M12‑16/p.211
Son, Kihong M21‑18/p.241
Son, Seong Jin M23‑34/p.251
M23‑33/p.251
Song, Bowen M22‑42/p.248
M18‑61/p.239
Song, Han Kyeol M11‑29/p.206
NPO2‑24/p.162
Song, In Chan M18‑63/p.239
M12‑48/p.213
Song, Ki Baek NPO2‑7/p.161
NPO2‑5/p.161
NPO2‑4/p.161
NPO2‑6/p.161
Song, Sanghoon NPO2‑113/p.170
NPO2‑111/p.169
Song, William Y. M12‑2/p.210
Song, Wonil R05‑5/p.135
R05‑15/p.136
R05‑42/p.138
Song, Xiyun M22‑23/p.247
4D2‑3/p.96
Sonoda, Shinya N10‑2/p.106
M12‑10/p.210
NPO2‑122/p.171
Sopczak, Andre N43‑7/p.193
Sorby, Magnus H.
NPO1‑221/p.134
Soret, Jesus M16‑40/p.229
Soriano, Antonio M17‑20/p.232
NPO2‑76/p.167
M11‑6/p.204
M22‑7/p.246
NPO2‑73/p.167
M11‑27/p.206
Sossi, Vesna M21‑34/p.243
M12‑41/p.212
M16‑42/p.229
M11‑26/p.206
Soucy, Jean‑Paul M23‑19/p.250
M24‑6/p.257
Soueid, Paul N43‑7/p.193
Soufli, Regina N25‑7/p.150
NPO2‑13/p.162
Soukup, Pavel N3‑3/p.89
J3‑4/p.115
R12‑5/p.202
Soultanidis, Georgios M.
M11‑70/p.209
Soundara‑Pandian, Lakshmi N7‑5/p.92
Souza, Julio NPO2‑197/p.176
Sowinska, Malgorzata R13‑5/p.202
Soyama, Kazuhiko NPO1‑211/p.133
NPO1‑195/p.132
Sozzi, Marco N43‑3/p.193
NPO2‑196/p.176
NPO2‑204/p.176
Sparger, John E.N25‑1/p.149
Spartiotis, Konstantinos R06‑1/p.113
Specht, Matthieu NPO1‑9/p.117
Speller, Robert D.
N37‑4/p.189
Spinella, Franco NPO2‑83/p.167
NPO2‑196/p.176
NPO2‑204/p.176
Spinelli, Antonello E.
M22‑47/p.248
Sportelli, Giancarlo M25‑8/p.258
Spruck, Bjoern N33‑2/p.186
Squillante, Michael N4‑3/p.90
Srivongsa, Tanapon M12‑4/p.210
M22‑24/p.247
Stacy, Mitchel R.M18‑1/p.234
Staelens, Steven M11‑56/p.208
M23‑39/p.252
Stahoviak, John N3‑2/p.89
Staines, Cassie NPO1‑22/p.119
Stampahar, Tom N4‑3/p.90
Stampanoni, Marco M17‑17/p.232
M12‑20/p.211
Stancampiano, Concetta HT2‑2/p.79
N19‑2/p.145
Stanchina, Sylvain R02‑3/p.94
R12‑7/p.202
J3‑6/p.116
R12‑6/p.202
Stand, Luis NPO1‑47/p.121
NPO1‑226/p.123
Stankova, Vera M07‑4/p.198
J1‑4/p.114
M11‑44/p.207
NPO2‑177/p.175
Stannard, Tyler NPO2‑18/p.162
Starodubtsev, Oleksandr N31‑7/p.185
Stearns, Charles W.
HY1‑4/p.98
4D2‑5/p.96
M11‑3/p.204
M23‑5/p.249
Stechmann, Christoph NPO2‑233/p.178
NPO2‑201/p.176
Steer, Chris N15‑7/p.110
Stefanescu, Irina NPO2‑138/p.172
NPO1‑196/p.132
Stein, Paul N36‑2/p.188
Stephen, John B.R05‑50/p.139
Sternberg, M. G.N38‑1/p.189
Steven, Ross G.M04‑5/p.157
Stewart, Andrew NPO1‑92/p.124
Stichelbaut, Frederic M19‑2/p.224
M21‑2/p.240
HT2‑6/p.80
Stierstorfer, Karl 4D1‑2/p.96
Stifutkin, Alexey N8‑3/p.92
Stinnett, Jacob N25‑3/p.150
Stinnett, Richard R01‑7/p.93
Stocchi, Achille N13‑8/p.108
Stocki, Trevor J.NPO2‑34/p.163
Stoehlker, Ulrich R01‑3/p.93
Stoermer, Michael N23‑6/p.148
Stoffle, Nicholas N.
RD1‑1/p.82
Stolin, Alexander V.
M12‑43/p.212
M11‑19/p.205
Stoll, Sean S.M16‑22/p.228
M21‑52/p.244
N33‑6/p.186
Stonehill, Laura C.
N36‑2/p.188
NPO1‑75/p.123
Stoppa, David N34‑8/p.187
N8‑6/p.92
M02‑3/p.155
M14‑3/p.223
Stormer, Michael N7‑2/p.91
Storms, Steve N36‑2/p.188
Stortz, Greg M16‑42/p.229
M12‑41/p.212
M11‑26/p.206
Stowe, Ashley R14‑5/p.203
Straub, Katrin M25‑8/p.258
Strauss, Olivier M17‑38/p.234
Streekstra, G. J.M24‑8/p.257
Strellis, Dan N27‑6/p.151
Streun, Matthias M11‑28/p.206
M16‑46/p.230
Stricker‑Shaver, Daniel A.
M11‑30/p.206
N21‑2/p.147
Strologas, John M16‑4/p.227
M13‑14/p.215
Stroobants, Sigrid M23‑39/p.252
M11‑56/p.208
Strüder, Lothar N46‑1/p.195
N41‑3/p.192
NPO2‑109/p.169
N43‑5/p.193
Struffert, Tobias M18‑51/p.238
Struth, Bernd N30‑5/p.153
Studen, Andrej M11‑41/p.207
Stuetzer, Kristin HT3‑4/p.81
M21‑12/p.241
Stute, Simon M18‑50/p.238
Su, Da‑Shung N17‑5/p.111
Suda, Yusuke N24‑5/p.149
Sudo, Shigeru NPO1‑88/p.124
Sue, Dong Gon N26‑3/p.150
Suenaga, Atsushi NPO2‑101/p.169
NPO2‑100/p.169
Suga, Mikio M07‑1/p.197
M12‑52/p.213
M12‑45/p.213
HT3‑2/p.80
M05‑5/p.196
Sugimoto, Dai N39‑7/p.191
NPO1‑208/p.133
Sugimoto, Satoru M21‑9/p.240
Sugimoto, Takashi NPO2‑134/p.171
Sugita, Tsukasa N42‑1/p.192
Sugiyama, Hiroyuki NPO1‑104/p.125
Sugizaki, Mutsumi N1‑7/p.88
Suh, Byoung Jin NPO2‑86/p.168
Suh, Yelin M21‑7/p.240
Suk, Michal N43‑7/p.193
Sukhanov, Andrey Y.
NPO2‑202/p.176
Sukowski, Frank N37‑3/p.189
Sulaj, Arta N24‑8/p.149
Sullivan, Clair J.N15‑5/p.110
N25‑3/p.150
Sumiyoshi, Takayuki NPO1‑153/p.129
NPO1‑104/p.125
Summers, Christopher J.
J2‑1/p.114
NPO1‑222/p.134
Sun, G.M. NPO2‑74/p.167
Sun, Hongyan M18‑22/p.236
Sun, Jianchao NPO2‑69/p.166
N9‑3/p.105
Sun, Liang NPO1‑218/p.134
NPO1‑215/p.134
NPO1‑217/p.134
Sun, Lijun N23‑2/p.148
Sun, Tao M18‑25/p.236
Sun, Xiankai M18‑46/p.238
Sun, Xishan NPO2‑157/p.173
M16‑54/p.230
M21‑8/p.240
M21‑26/p.242
M02‑1/p.155
Sun, Yongjie NPO1‑118/p.126
Sun, Zhijia NPO1‑117/p.126
Sundstrom, Torbjorn M18‑47/p.238
Sung, Younghun M12‑14/p.210
Surti, Suleman M18‑36/p.237
M03‑1/p.156
M11‑36/p.206
J1‑7/p.114
Sutherland, Kenneth M21‑19/p.241
Suwada, Tsuyoshi N27‑3/p.151
N27‑4/p.151
Suzui, Nobuo NPO2‑43/p.164
Suzuki, Akira NPO1‑34/p.119
NPO1‑53/p.121
N4‑6/p.90
Suzuki, Atsuro M18‑30/p.236
M16‑2/p.227
Suzuki, Hiroki N11‑2/p.106
NPO1‑145/p.128
NPO1‑144/p.128
NPO1‑150/p.128
Suzuki, Hiroyuki NPO1‑211/p.133
Suzuki, Kazuhiko R04‑4/p.95
Suzuki, Kazuhito N35‑7/p.188
Suzuki, Mitsutaka M21‑15/p.241
Suzuki, Ryusuke M21‑19/p.241
Suzuki, Seitaro M11‑13/p.205
Suzuki, Shinsuke NPO2‑104/p.169
Suzuki, Shotaro NPO1‑49/p.121
NPO1‑67/p.122
Suzuki, Yuta R13‑1/p.202
Suzuki, Yuto R05‑18/p.136
Svertilov, Sergey I.
NPO2‑123/p.170
Swanson, Kristin R.
M13‑30/p.216
Sweany, Melinda N3‑4/p.89
N15‑3/p.110
Sweeney, Anthony NPO1‑136/p.128
Swider, Stacy R02‑6/p.94
NPO1‑27/p.119
R04‑5/p.95
Swiderski, Lukasz N20‑2/p.146
N12‑3/p.107
N20‑8/p.146
N20‑5/p.146
Swinhoe, Martyn T.
N7‑4/p.92
Szabelski, Jacek NPO2‑69/p.166
N9‑3/p.105
Szabo, Zsolt M22‑3/p.245
Szawłowski, Marek N8‑1/p.92
N12‑3/p.107
NPO1‑99/p.125
Szczęśniak, Tomasz N8‑1/p.92
NPO1‑99/p.125
Szczygiel, Robert NPO2‑209/p.177
N40‑5/p.191
N14‑4/p.109
NPO1‑146/p.128
N14‑3/p.109
Szczypinski, Rafal M16‑47/p.230
Szpak, Bartlomiej NPO1‑21/p.118
Sztrokay, Aniko M20‑7/p.225
Sztuk‑Dambietz, Jolanta NPO2‑145/p.172
N30‑2/p.153
N45‑1/p.194
NPO2‑108/p.169
T
Tabacchini, Valerio NPO1‑102/p.125
M11‑2/p.204
Tabata, Makoto M11‑13/p.205
NPO1‑94/p.124
NPO1‑153/p.129
NPO1‑106/p.125
NPO1‑95/p.124
NPO1‑169/p.130
Taccetti, Francesco N46‑7/p.195
N43‑5/p.193
N26‑4/p.150
Tachibana, Atsushi M05‑5/p.196
M12‑45/p.213
Tadokoro, Takahiro N28‑4/p.152
Tadokoro, Takashi N34‑4/p.187
Taguchi, Katsuyuki PC1‑4/p.97
M20‑3/p.225
M20‑2/p.225
Taguchi, Ken 4D1‑1/p.96
Tahavori, Fatemeh M21‑30/p.242
Tahirovic, Elvedin NPO1‑110/p.125
NPO1‑153/p.129
Tai, Yuan‑Chuan J1‑1/p.114
M11‑47/p.207
M16‑23/p.228
J2‑6/p.115
M22‑26/p.247
Tajima, Hiroyasu N1‑6/p.88
N25‑5/p.150
Tajiri, Gordon NPO2‑128/p.171
Takada, Atsushi M12‑10/p.210
N10‑2/p.106
NPO2‑122/p.171
N28‑2/p.152
Takada, Eiji NPO1‑51/p.121
NPO1‑4/p.117
Takada, Haruki NPO1‑164/p.130
Takada, Masashi NPO1‑209/p.133
Takahashi, Hiromitsu N9‑4/p.105
N39‑6/p.190
Takahashi, Hiroyuki M11‑15/p.205
N7‑3/p.91
NPO1‑151/p.129
NPO1‑185/p.131
NPO1‑175/p.130
NPO2‑215/p.177
N23‑5/p.148
M11‑16/p.205
NPO1‑152/p.129
NPO1‑107/p.125
N10‑4/p.106
M21‑66/p.245
M11‑35/p.206
NPO1‑64/p.122
Takahashi, Isao N28‑4/p.152
NPO1‑164/p.130
Takahashi, Kazutoshi N28‑7/p.152
Takahashi, Masanori N22‑4/p.147
Takahashi, Miwako M21‑66/p.245
M11‑15/p.205
Takahashi, Tadayuki N25‑5/p.150
M21‑5/p.240
N1‑6/p.88
J4‑4/p.160
R03‑7/p.94
M18‑35/p.237
M11‑21/p.205
Takahashi, Takenoshin NPO2‑2/p.161
Takahashi, Tomonori N.
NPO1‑120/p.126
Takahashi, Tone NPO1‑51/p.121
NPO2‑11/p.162
Takahashi, Yusuke N8‑2/p.92
Takahisa, Keiji N16‑7/p.111
Takai, Noriaki R13‑1/p.202
Takakura, Kei NPO1‑162/p.130
Takakura, Kouske NPO1‑26/p.119
Takamaru, Hisanori NPO2‑175/p.174
Takana, Manobu M
NPO1‑116/p.126
Takase, Ikuko M22‑43/p.248
Takase, Misao NPO1‑195/p.132
Takase, Wataru HT3‑8/p.81
Takatomi, Toshikazu NPO2‑2/p.161
Takeda, Ayaki NPO1‑3/p.117
NPO2‑124/p.171
N1‑4/p.88
Takeda, Shinichiro R03‑7/p.94
M11‑21/p.205
J4‑4/p.160
M18‑35/p.237
N1‑6/p.88
N25‑5/p.150
Takeuchi, Kenshiro NPO1‑144/p.128
N11‑2/p.106
NPO1‑150/p.128
Takeuchi, Kenshirou NPO1‑185/p.131
Takeuchi, Wataru M18‑30/p.236
M16‑2/p.227
Takyu, Sodai M16‑59/p.231
Talamonti, Cinzia HT2‑2/p.79
N19‑2/p.145
RD2‑3/p.83
N19‑3/p.145
Talat, Didar M13‑20/p.215
Talboys, Matthew M15‑8/p.224
Talebi, Jahanzad NPO2‑211/p.177
NPO2‑210/p.177
Tamaki, Nagara M18‑30/p.236
Tammaro, Stefano N13‑8/p.108
Tamura, Naoki NPO1‑88/p.124
Tan, Hui N24‑1/p.149
Tanabe, Satoshi M21‑19/p.241
Tanaka, Hidekazu N24‑5/p.149
Tanaka, Hiroyuki NPO1‑64/p.122
Tanaka, Manobu NPO2‑220/p.178
NPO2‑122/p.171
N10‑2/p.106
Tanaka, Rie M21‑15/p.241
Tanaka, Ryotaro NPO2‑134/p.171
Tanaka, Takaaki N1‑4/p.88
NPO2‑124/p.171
N1‑6/p.88
Tandon, Prateek NPO2‑22/p.162
N11‑6/p.107
Tang, Fukun N17‑1/p.111
Tang, Jing M15‑7/p.224
M11‑42/p.207
Tang, Peng‑Yi NPO2‑207/p.177
NPO2‑133/p.171
NPO2‑137/p.172
Tanguay, Jesse M13‑25/p.216
Taniguchi, Nanae N2‑2/p.88
Tanimori, Toru N10‑2/p.106
M12‑10/p.210
N28‑2/p.152
NPO2‑122/p.171
Tanimoto, Katsuyuki M12‑52/p.213
Tanimura, Yoshihiko NPO1‑210/p.133
Taniuchi, Ryo NPO1‑59/p.121
Taniwaki, Mitsuru N28‑2/p.152
Tapfer, Arne M20‑5/p.225
Tappero, Ryan R09‑4/p.158
Tardocchi, Marco NPO1‑90/p.124
Tari, Suleyman R03‑6/p.94
Tarolli, Alessandro M14‑2/p.223
J1‑7/p.114
N8‑1/p.92
M21‑36/p.243
Taroni, Silvia N5‑1/p.90
Tartoni, Nicola R05‑10/p.136
N30‑7/p.154
Tashima, Hideaki M11‑17/p.205
M12‑53/p.213
M07‑1/p.197
M21‑25/p.242
NPO2‑58/p.165
M11‑7/p.204
M21‑13/p.241
M11‑11/p.205
M22‑13/p.246
HT3‑2/p.80
M07‑2/p.198
M16‑14/p.228
Tassielli, Giovanni NPO1‑127/p.127
NPO1‑126/p.127
NPO2‑200/p.176
Tateishi, Keiji N24‑5/p.149
Tatischeff, Vincent N9‑7/p.105
Tatishvili, Gocha N38‑6/p.190
N45‑3/p.194
Tauber, Clovis M18‑50/p.238
Tauchi, Kazuya NPO1‑3/p.117
Tavanapong, Wallapak M18‑62/p.239
Tavernier, Stefaan NPO2‑221/p.178
M03‑3/p.156
Taylor, Richard J.
NPO1‑136/p.128
Tchagaspanian, Michal M09‑4/p.199
Tellarini, Giulia NPO2‑158/p.173
Teng, Ping‑Kun N17‑5/p.111
Teng, Y.‑S. NPO2‑193/p.176
Tennert, Felix RD2‑10/p.83
Tennyson, Brian N3‑7/p.89
Tenreiro, Claudio N27‑7/p.151
Terakawa, Atsuki M16‑59/p.231
Teras, Mika M18‑23/p.236
Terasaki, Kohei N10‑3/p.106
Terasawa, Kazuhiro N28‑7/p.152
Terunuma, Nobuhiro NPO2‑3/p.161
Teshigawara, Manabu M23‑12/p.250
Teshima, Masahiro N8‑3/p.92
Tesi, Mauro HT2‑2/p.79
N19‑2/p.145
Tesileanu, Ovidiu N16‑7/p.111
Tessarotto, Fulvio N2‑5/p.88
Tessier, Frederic N29‑2/p.153
Testa, Etienne HT2‑7/p.80
Testa, Mauro HT3‑5/p.81
Tetrault, Marc‑Andre J1‑5/p.114
Teuho, Jarmo M23‑10/p.250
M18‑23/p.236
Thada, Shantalaxmi M18‑12/p.235
Thajchayapong, Pairash M22‑17/p.246
M22‑24/p.247
M12‑4/p.210
Thanasupsombat, Chalinee M18‑33/p.236
Thayer, Jana B.NPO2‑111/p.169
Theodoratos, Gerasimos N14‑6/p.109
Therriault, Dany RD2‑2/p.83
Thibault, Jean‑Baptiste M06‑7/p.197
Thibault, Pierre M23‑13/p.250
Thielemans, Kris M08‑4/p.199
M22‑4/p.246
M18‑21/p.236
M18‑42/p.237
M18‑17/p.235
Thienpont, Damien J2‑3/p.115
Thiessen, Jonathan D.
M21‑62/p.245
M11‑26/p.206
M16‑42/p.229
M12‑41/p.212
M21‑34/p.243
M11‑39/p.207
Thoen, Hendrik M16‑13/p.228
Thomas, Eric P.N5‑8/p.91
Thomas, Maira N41‑4/p.192
Thomay, Christian N10‑5/p.106
N45‑4/p.194
Thompson, Christopher J.
M21‑34/p.243
M12‑41/p.212
M11‑26/p.206
M16‑42/p.229
M11‑39/p.207
Thompson, Kyle R.
N18‑3/p.112
Thompson, Martin NPO2‑34/p.163
Thongvigitmanee, Saowapak S.
M18‑33/p.236
M22‑17/p.246
M22‑24/p.247
M12‑4/p.210
Thornhill, Jim NPO2‑68/p.166
Thrall, Crystal R05‑26/p.137
R04‑1/p.95
Threadgold, James N37‑2/p.189
NPO2‑41/p.164
Throckmorton, Daniel N3‑4/p.89
Thungstrom, Goran R05‑10/p.136
Thurel, Yves N27‑8/p.151
Tian, Lichao NPO1‑117/p.126
Tian, Yang NPO1‑204/p.133
Tickner, James R.
NPO2‑19/p.162
N45‑9/p.195
Tigkos, Konstaninos N37‑3/p.189
Tinti, Gemma N46‑3/p.195
Tippawan, Udomrat N2‑2/p.88
Titskaya, Valentina D.
NPO1‑188/p.131
Titze, Michael M18‑38/p.237
T’Jampens, Stephane N5‑3/p.90
Tjayadi, Leonardi R05‑29/p.137
Tocharoenchai, Chiraporn M23‑18/p.250
M23‑21/p.250
Tocut, Vanessa NPO1‑85/p.124
Todd, Benjamin N27‑8/p.151
Togashi, Tadashi NPO1‑83/p.123
Togo, Atsushi J4‑4/p.160
Toh, Kentaro NPO1‑26/p.119
NPO1‑211/p.133
Tohme, Michel M23‑5/p.249
Toi, Kohei N36‑5/p.188
NPO1‑57/p.121
Tokanai, Fuyuki NPO1‑104/p.125
Tolbanov, Oleg R05‑34/p.137
Tolbod, Lars P.M17‑39/p.234
Tolvanen, Tuula M18‑23/p.236
Tomada, Astrid NPO2‑111/p.169
NPO2‑98/p.168
NPO2‑99/p.168
Tomandl, Ivo N38‑2/p.190
NPO2‑79/p.167
Tomanin, Alice N39‑2/p.190
Tomassetti, Luca NPO2‑148/p.172
NPO2‑158/p.173
NPO2‑159/p.173
NPO2‑149/p.172
Tominaga, Koji N28‑2/p.152
Tomita, Hideki NPO2‑10/p.161
NPO1‑220/p.134
NPO2‑11/p.162
NPO1‑51/p.121
Tomono, Dai N28‑2/p.152
N10‑2/p.106
NPO2‑122/p.171
Tomov, Dimitre M11‑47/p.207
Tonami, Hiromichi M12‑59/p.214
Toota, Kazushige NPO1‑81/p.123
Topp, Christopher NPO2‑54/p.165
Torii, Tatsuo NPO1‑151/p.129
Torikai, Kota M11‑21/p.205
M21‑5/p.240
M18‑35/p.237
Torma, Pekka T.N34‑3/p.187
Torres, Jose M16‑40/p.229
Torres‑Espallardo, Irene M21‑24/p.242
M21‑3/p.240
M21‑22/p.242
M07‑4/p.198
Torres‑Tramon, Pablo M13‑9/p.215
Torromeo, Giovanni NPO1‑68/p.122
Toshito, Toshiyuki HT3‑8/p.81
Tosi, Nicolo’ NPO1‑68/p.122
NPO2‑158/p.173
Tota, Kazushige NPO1‑50/p.121
NPO1‑82/p.123
Totsuka, Daisuke NPO1‑28/p.119
Toui, Kohei N28‑3/p.152
Tourais, Joao L.M12‑49/p.213
Tower, Joshua N4‑3/p.90
R14‑4/p.203
N12‑6/p.107
Townsend, David W.
M08‑7/p.199
Toyokawa, Hidenori NPO2‑101/p.169
NPO2‑100/p.169
Toyokawa, Hiroyuki NPO2‑30/p.163
Tozzetti, Lorenzo RD2‑3/p.83
N19‑3/p.145
Tramontana, Antonella HT1‑5/p.79
Tran, Thuy Linh N28‑8/p.152
HT3‑10/p.81
RD1‑9/p.82
Tran, Vi‑Hoa M16‑10/p.227
Traut, Silke N46‑2/p.195
R03‑4/p.94
Travernier, Stafaan M16‑49/p.230
Traversi, Gianluca NPO2‑228/p.178
NPO1‑8/p.117
NPO2‑222/p.178
Traxler, Michael N16‑3/p.110
M11‑61/p.208
Treis, Johannes N41‑3/p.192
Tremoulheac, Benjamin M17‑24/p.233
Tremsin, Anton S.
N39‑8/p.191
Treves, S. T.M13‑32/p.216
Trifiro’, Antonio N26‑4/p.150
Trigilio, Paolo M21‑40/p.243
Trimpl, Marcel N14‑4/p.109
Trochet, Stephane M16‑43/p.230
Troncon, Clara N13‑1/p.108
Trost, Jeff M23‑40/p.252
Trost, Jeffrey CM23‑41/p.252
Trotter, Doug N3‑2/p.89
Trovato, Marco NPO2‑177/p.175
M07‑4/p.198
M21‑22/p.242
Trueb, Peter N46‑4/p.195
Trung, Thi N.N16‑4/p.110
Trunk, Ulrich N14‑7/p.109
N30‑1/p.153
Tsai, Chung‑Yung M04‑7/p.157
Tsai, Pi‑En NPO2‑80/p.167
Tskhadadze, Edisher N2‑1/p.88
Tsopelas, Panagiotis HT2‑4/p.80
Tsoumpas, Charalampos M11‑70/p.209
M23‑37/p.252
M10‑1/p.200
4D1‑5/p.96
M22‑4/p.246
M23‑30/p.251
M18‑21/p.236
M18‑15/p.235
Tsubota, Masakatsu N34‑4/p.187
Tsubota, Youichi N28‑3/p.152
N36‑5/p.188
NPO1‑23/p.119
NPO1‑64/p.122
NPO1‑57/p.121
N4‑2/p.89
Tsuboyama, Toru NPO1‑3/p.117
Tsuchiya, Haruhumi NPO2‑175/p.174
Tsuchiya, Ryutaro NPO1‑89/p.124
Tsuda, Tomoaki M12‑59/p.214
Tsui, Benjamin M.W. R06‑3/p.113
M23‑21/p.250
NPO2‑26/p.163
M08‑3/p.199
M11‑53/p.208
M21‑35/p.243
HY2‑1/p.98
M18‑6/p.234
M12‑55/p.214
M10‑4/p.200
M21‑65/p.245
M11‑55/p.208
4D1‑7/p.96
M15‑6/p.224
M16‑6/p.227
Tsuji, Yuji NPO1‑146/p.128
Tsukada, Kiwamu NPO1‑88/p.124
Tsukamoto, Yudai R13‑1/p.202
Tsukamoto, Yuki R13‑1/p.202
Tsuru, Takeshi G.
NPO1‑88/p.124
N41‑2/p.192
NPO2‑124/p.171
N1‑4/p.88
Tsutsumi, Kousuke N4‑8/p.90
Tuna, Uygar M15‑5/p.224
M23‑10/p.250
M23‑28/p.251
Tung, Chihua M22‑23/p.247
Tuning, Niels N10‑8/p.106
Tupitsyn, Eugene R14‑5/p.203
Turcato, Monica NPO2‑108/p.169
N30‑2/p.153
N45‑1/p.194
NPO2‑145/p.172
Turco, Anna M18‑53/p.238
Turecek, Daniel N43‑7/p.193
NPO1‑135/p.127
J3‑4/p.115
RD1‑1/p.82
N3‑3/p.89
Turini, Nicola NPO2‑83/p.167
Turkington, Timothy G.
M24‑7/p.257
Tuula, Tolvanen M23‑10/p.250
Twomey, Timothy R.
N15‑4/p.110
Tyazhev, Anton R05‑34/p.137
Uchida, Tomohisa N10‑2/p.106
NPO2‑122/p.171
NPO2‑220/p.178
U
Uchida, Yuusuke J4‑4/p.160
Uchiyama, Tetsuya NPO1‑145/p.128
NPO1‑144/p.128
N11‑2/p.106
NPO1‑150/p.128
Uchiyama, Yusuke N13‑5/p.108
Udias, Jose M. M23‑16/p.250
M13‑2/p.214
M18‑44/p.237
M16‑26/p.228
M03‑5/p.156
Ueda, Aki NPO1‑23/p.119
Uehara, Minoru N22‑4/p.147
Ueno, Katsunori N34‑4/p.187
Ueno, Kazuki NPO2‑220/p.178
Ueno, Yuichiro M16‑2/p.227
NPO1‑164/p.130
M18‑30/p.236
N28‑4/p.152
Uesaka, Mitsuru N23‑5/p.148
N7‑3/p.91
Uher, Josef M12‑3/p.210
Uhlmann, Norman N37‑3/p.189
Ujhelyi, Ferenc M11‑31/p.206
M02‑3/p.155
Ukon, Naoyuki M21‑19/p.241
Ullan, Miguel NPO2‑72/p.166
Umeda, Izumi O.
M11‑22/p.205
Umezawa, Hitoshi N34‑4/p.187
Umezu, Yoshiyuki NPO1‑198/p.132
Unholtz, Daniel M21‑12/p.241
HT3‑4/p.81
Unno, Yasuhiro NPO1‑210/p.133
Unno, Yoshinobu NPO1‑3/p.117
Uno, Shoji N2‑2/p.88
Urakawa, Junji NPO2‑3/p.161
NPO2‑2/p.161
Uribe, Carlos F.M13‑31/p.216
Uribe, Jorge M11‑3/p.204
Uritani, Akira NPO1‑149/p.128
N39‑7/p.191
NPO1‑208/p.133
NPO1‑220/p.134
NPO1‑205/p.133
Ur‑Rehman, Khateeb NPO2‑62/p.166
NPO2‑1/p.161
Us, Defne M15‑5/p.224
Usai, Giulio NPO2‑197/p.176
Ushida, Masato NPO1‑220/p.134
Usui, Keisuke M21‑9/p.240
Usuki, Yoshiyuki M21‑51/p.244
NPO1‑175/p.130
M11‑15/p.205
Utsunomiya, Hiroaki N16‑7/p.111
Uxa, Stepan R15‑1/p.226
R05‑40/p.138
R03‑3/p.94
Uznanski, Slawosz N27‑8/p.151
V
Vabre, Alexandre M24‑8/p.257
Vacchi, Andrea G.
M21‑45/p.243
N14‑8/p.109
N1‑2/p.87
Vacchi, Carla NPO2‑222/p.178
Vacheret, Antonin N42‑2/p.192
N39‑5/p.190
Vacik, Jiri NPO2‑79/p.167
N38‑2/p.190
Vadawale, Santosh V.
NPO2‑70/p.166
NPO2‑136/p.172
NPO2‑118/p.170
N45‑7/p.195
Vagnucci, Jean Francois N13‑8/p.108
Vahanen, Sami J4‑1/p.160
Vaidyanathan, Ganesan N19‑6/p.145
Vainio, Rami NPO2‑119/p.170
Valastyan, Ivan NPO1‑30/p.119
Valdes‑Galicia, Jose F.
NPO2‑175/p.174
Valenciaga, Yanisley M19‑1/p.224
Valentino, Vincenzo N2‑1/p.88
Valero, Alberto NPO2‑197/p.176
Valin, Isabel NPO1‑9/p.117
Vallage, Bertrand NPO1‑61/p.122
Vallerga, John V.N39‑8/p.191
Valtonen, Eino NPO2‑119/p.170
Valvo, Giusy NPO1‑87/p.124
NPO1‑90/p.124
Van Audenhaege, Karen M16‑17/p.228
Van Beuzekom, Martin N14‑5/p.109
HT2‑4/p.80
Van Dam, R. Michael M05‑6/p.196
Van Der Borden, Arnout J.
M21‑32/p.242
Van Der Have, Frans M22‑15/p.246
Van Der Schaaf, Arjen M21‑32/p.242
Van Esch, Patrick N23‑7/p.148
NPO1‑213/p.134
Van Goethem, Mark Jan HT2‑4/p.80
Van Heijningen, Joris NPO2‑99/p.168
Van Holen, Roel M16‑13/p.228
M13‑17/p.215
M11‑56/p.208
M16‑17/p.228
M14‑7/p.223
M21‑39/p.243
M12‑57/p.214
Van Hoorne, Jacobus Willem N22‑1/p.147
N22‑2/p.147
Van Laere, Koen M08‑2/p.198
Van Loef, Edgar N4‑3/p.90
N20‑3/p.146
Van Paesschen, Wim M08‑2/p.198
Van Schelt, J .N38‑1/p.189
Van Siclen, Clinton D.
N37‑5/p.189
N25‑6/p.150
Van ‘T Veld, Aart A
M21‑32/p.242
Van Waasen, Stefan NPO1‑202/p.133
NPO2‑176/p.175
M16‑46/p.230
M11‑28/p.206
Vandeghinste, Bert M13‑17/p.215
M11‑56/p.208
Vandehey, Nicholas T.
NPO2‑81/p.167
Vandenberghe, Stefaan M16‑13/p.228
M13‑17/p.215
M21‑39/p.243
M13‑1/p.214
M12‑57/p.214
M21‑32/p.242
M16‑17/p.228
M14‑7/p.223
M11‑56/p.208
Vandenbroucke, Arne M03‑6/p.156
M11‑20/p.205
M25‑4/p.258
Vandenbussche, Vincent M16‑43/p.230
M11‑34/p.206
Vandewalker, Kristen R06‑3/p.113
Vanier, Peter E.N11‑1/p.106
Vannuccini, Elena N31‑7/p.185
Vanzi, Eleonora N19‑2/p.145
HT2‑2/p.79
Vaquero, Juan J. M23‑16/p.250
M18‑44/p.237
M16‑26/p.228
M03‑5/p.156
Varela, Joao M16‑49/p.230
M18‑20/p.235
M18‑27/p.236
NPO2‑221/p.178
Vargas, Zanine VR05‑13/p.136
Varner, Gary S.N21‑1/p.146
NPO1‑157/p.129
Varoli, Vincenzo NPO1‑223/p.134
RD1‑4/p.82
NPO1‑90/p.124
Vasiliev, Yan V.NPO1‑37/p.120
Vaska, Paul M21‑52/p.244
M21‑58/p.244
M16‑22/p.228
N33‑6/p.186
Va’Vra, Jaroslav N43‑1/p.193
NPO1‑157/p.129
Vavrik, Daniel N3‑3/p.89
J3‑4/p.115
Vax, Eran NPO2‑36/p.164
Vazquez, Carlos M11‑6/p.204
Vazquez‑Flores, Gerson J.
NPO1‑218/p.134
NPO1‑215/p.134
NPO1‑217/p.134
Vecklans, Viesturs M16‑49/p.230
Vedenkin, Nikolay NPO2‑123/p.170
Veerapaspong, Teerasak M16‑27/p.228
Veerappan, Chockalingam M02‑3/p.155
Veit‑Haibach, Patrick M12‑50/p.213
Velmozhnaya, Elena C.
NPO1‑188/p.131
Veloso, Joao F.M11‑50/p.208
Velroyen, Astrid M20‑5/p.225
Velthuis, Jaap J.N45‑4/p.194
N10‑5/p.106
Venditti, Stefano NPO2‑196/p.176
N17‑3/p.111
N44‑6/p.194
Venedam, Richard R14‑6/p.203
Venialgo, Esteban M11‑23/p.205
Verbakel, Frank R02‑4/p.94
Verde, Giuseppe N26‑4/p.150
Verdier, Marc‑Antoine M11‑34/p.206
M09‑8/p.200
M16‑43/p.230
Vergara Villegas, Osslan O.
M17‑9/p.232
Verger, Loick M09‑4/p.199
R02‑3/p.94
R12‑6/p.202
R12‑7/p.202
J3‑6/p.116
M02‑3/p.155
Verhaeghe, Jeroen M23‑39/p.252
M11‑56/p.208
Vernekohl, Don M13‑7/p.214
Vernkohl, Don M06‑5/p.197
Vernon, Emerson R02‑1/p.93
R02‑5/p.94
J4‑3/p.160
Verona, Claudio N42‑5/p.193
Verona‑Rinati, Gianluca N42‑5/p.193
Verzellesi, Giovanni NPO1‑167/p.130
Vetter, Kai N25‑4/p.150
NPO2‑40/p.164
N25‑8/p.150
NPO2‑53/p.165
N11‑3/p.107
J4‑5/p.160
Vial, Philip J.M07‑7/p.198
Vicente, Esther M13‑2/p.214
Vicini, Piero NPO2‑204/p.176
N44‑1/p.194
Vidal, Luis Fernando M11‑6/p.204
M22‑7/p.246
M11‑27/p.206
NPO2‑73/p.167
M17‑20/p.232
NPO2‑76/p.167
Viermetz, Manuel M20‑6/p.225
Vija, Alexander H.
M17‑33/p.233
Villoing, Daphne M13‑13/p.215
Vinke, Ruud J1‑8/p.114
M21‑38/p.243
Vinogradov, Sergey NPO1‑105/p.125
NPO1‑101/p.125
Virva, Saunavaara M23‑10/p.250
Visser, Jan HT2‑4/p.80
Visvikis, Dimitris M17‑38/p.234
M21‑28/p.242
M13‑8/p.215
M10‑5/p.200
M07‑6/p.198
M18‑54/p.238
M23‑36/p.251
4D1‑4/p.96
M18‑28/p.236
Viswanath, Varsha M16‑8/p.227
Viswanathan, Vijayaragavan RD1‑3/p.82
Vivolo, Daniele NPO1‑112/p.126
Vlasenko, Oleksandr I.
R03‑2/p.94
Vlassis, Spiros N14‑6/p.109
Vogt, Adrian R05‑4/p.135
Voigt, Jens‑Uwe M18‑53/p.238
Von Schulthess, Gustav K.
M12‑50/p.213
Vorobiev, Alexander R05‑34/p.137
Voss, Bernd NPO1‑129/p.127
NPO1‑128/p.127
Vouters, Guillaume N33‑3/p.186
Vu, Chinh M11‑1/p.204
Vuckovic, Milan M16‑29/p.229
Vunckx, Kathleen M18‑53/p.238
M08‑2/p.198
Vyas, Chirag K.NPO1‑177/p.131
NPO1‑176/p.131
Vyas, Jagdish C.NPO2‑153/p.173
Vykydal, Zdenek N43‑7/p.193
W
Wagadarikar, Ashwin A.
M16‑10/p.227
NPO1‑100/p.125
Wagner, Andreas M19‑3/p.224
Wagner, Louis M21‑11/p.241
Wahl, Richard L.M06‑2/p.197
M03‑8/p.156
Wajima, Yuto R13‑1/p.202
Wakabayashi, Genichiro NPO1‑198/p.132
Wakisaka, Hidekatsu M21‑16/p.241
Walenta, Albert H.
NPO1‑123/p.127
Walker, Frank R01‑7/p.93
Walker, Katherine L.
M16‑1/p.227
Walker, Matthew D.
M11‑26/p.206
Walker, Richard M02‑3/p.155
N8‑6/p.92
Wall, Jonathan M23‑11/p.250
Wall, Liam NPO1‑92/p.124
Waller, David NPO2‑34/p.163
Wallsten, Elin M23‑32/p.251
Wang, Bo NPO2‑161/p.173
Wang, Cai‑Lin N23‑1/p.148
Wang, Chao M23‑4/p.249
Wang, Chao‑Min NPO2‑161/p.173
Wang, Chung‑Hsiang NPO2‑193/p.176
Wang, Chunjie N44‑8/p.194
Wang, Ge M20‑4/p.225
Wang, Gin Chung J.
M16‑19/p.228
M03‑7/p.156
Wang, Guobao M04‑8/p.157
M17‑3/p.231
Wang, Haoyu M12‑5/p.210
NPO1‑148/p.128
Wang, Huafeng M22‑42/p.248
M18‑61/p.239
Wang, Huanyu NPO2‑117/p.170
NPO2‑116/p.170
Wang, Jian NPO2‑207/p.177
NPO2‑137/p.172
M08‑5/p.199
NPO2‑133/p.171
Wang, Jiao M06‑7/p.197
Wang, Jimmy M21‑43/p.243
Wang, Jin ZNPO2‑117/p.170
Wang, Jing M17‑18/p.232
M22‑9/p.246
M07‑8/p.198
Wang, Jingbo NPO1‑119/p.126
NPO1‑114/p.126
Wang, Jizhe M08‑3/p.199
Wang, Kaijun NPO1‑91/p.124
Wang, Ke M15‑3/p.224
Wang, Luyao M09‑6/p.200
Wang, Min‑Zu NPO1‑62/p.122
Wang, Ning R10‑7/p.159
Wang, Qian M25‑7/p.258
Wang, Qiang J2‑6/p.115
M22‑26/p.247
M16‑23/p.228
Wang, Qingli M22‑38/p.248
Wang, Rui NPO1‑132/p.127
Wang, Ruijie NPO2‑69/p.166
N9‑3/p.105
Wang, Shaohua NPO1‑32/p.119
Wang, Shi M11‑49/p.208
M13‑3/p.214
M18‑1/p.234
M17‑31/p.233
N11‑4/p.107
M11‑52/p.208
M18‑45/p.237
M12‑1/p.209
M17‑36/p.234
M18‑43/p.237
Wang, Stephanie N17‑2/p.111
Wang, Su Yin N40‑3/p.191
Wang, Tao R10‑7/p.159
R09‑7/p.158
Wang, Wei M17‑31/p.233
M12‑1/p.209
Wang, Weichung M04‑7/p.157
Wang, Wenli M23‑12/p.250
Wang, Wu X.N23‑8/p.148
Wang, Xiaolan M21‑43/p.243
M24‑3/p.257
Wang, Xiaozhuang NPO1‑118/p.126
Wang, Xuewu NPO2‑206/p.177
NPO2‑212/p.177
NPO2‑32/p.163
NPO1‑200/p.132
NPO1‑114/p.126
NPO2‑29/p.163
N15‑6/p.110
N7‑1/p.91
NPO1‑204/p.133
Wang, Xun R01‑4/p.93
R05‑44/p.139
Wang, Yanfeng NPO1‑117/p.126
Wang, Yen‑Nai N22‑4/p.147
Wang, Yi NPO1‑119/p.126
NPO1‑114/p.126
NPO2‑32/p.163
N15‑6/p.110
Wang, Yimin M21‑50/p.244
Wang, Zhenchang M17‑17/p.232
Wang, Zhentian M12‑20/p.211
Wang, Zhiguang M11‑8/p.204
Wang, Zhijie M08‑1/p.198
Wang, Zhong L.NPO1‑222/p.134
Warburton, William K.
N24‑1/p.149
Warniment, Adam N36‑2/p.188
Warren, Glenn A.
N38‑6/p.190
N45‑3/p.194
Warren, Matt NPO2‑103/p.169
Wasem, Albin NPO2‑96/p.168
Washio, Masakazu NPO2‑2/p.161
NPO2‑3/p.161
Watabe, Hiroshi M12‑54/p.213
M18‑70/p.239
NPO2‑43/p.164
NPO1‑155/p.129
M11‑54/p.208
Watabe, Tadashi M18‑70/p.239
M12‑54/p.213
Watanabe, Kenichi N39‑7/p.191
M12‑18/p.211
NPO1‑170/p.130
NPO1‑149/p.128
NPO1‑220/p.134
NPO1‑205/p.133
NPO1‑208/p.133
Watanabe, Kyouko NPO2‑175/p.174
Watanabe, Mitsuo NPO1‑145/p.128
N12‑1/p.107
Watanabe, Shin M18‑35/p.237
M11‑21/p.205
R03‑7/p.94
N1‑6/p.88
N25‑5/p.150
J4‑4/p.160
M21‑5/p.240
Watanabe, Yasuyoshi NPO2‑186/p.175
Watanabe, Yosuke S.
NPO1‑120/p.126
Watase, Yoshiyuki HT3‑8/p.81
Watson, Ian N3‑6/p.89
Watts, David NPO1‑125/p.127
Wawrzyniak, Gregor J3‑5/p.116
Weaver, Matt NPO2‑114/p.170
Weaver, Michael R.
NPO2‑55/p.165
Weber, Alfons N39‑5/p.190
N42‑2/p.192
Weber, Bradley M.
N40‑8/p.191
Weber, Bruce V.N37‑6/p.189
Weber, Thomas M12‑8/p.210
Wehner, Jakob J2‑7/p.115
M12‑42/p.212
M12‑47/p.213
Wehrl, Hans M18‑24/p.236
Wehrl, Hans F.M05‑2/p.196
Wei, Deng NPO2‑160/p.173
Wei, Hua NPO1‑47/p.121
Wei, Long M11‑5/p.204
Wei, Qingyang M18‑45/p.237
M17‑36/p.234
M18‑43/p.237
Wei, Tingcun M16‑58/p.231
Wei, Wei NPO2‑38/p.164
Weidenspointner, Georg NPO2‑105/p.169
N29‑5/p.153
N29‑6/p.153
Weilhammer, Peter M11‑41/p.207
Weirich, Christoph P.
M24‑2/p.257
Weisenberger, Andrew G.
NPO2‑54/p.165
N19‑6/p.145
NPO2‑52/p.165
Weissler, Bjoern J2‑7/p.115
M12‑47/p.213
M12‑42/p.212
Welch, Benjamin L.
N19‑6/p.145
Wells, David NPO2‑68/p.166
Wells, Kevin M10‑3/p.200
M13‑23/p.216
M21‑30/p.242
M18‑8/p.235
M18‑55/p.238
M18‑4/p.234
Welsh, James HT1‑1/p.79
Wen, Jie J2‑6/p.115
M16‑23/p.228
M11‑47/p.207
J1‑1/p.114
Wen, Junhai M17‑18/p.232
Wen, Xing NPO2‑69/p.166
N9‑3/p.105
Wen, Zhifei M21‑7/p.240
Weng, Fenghua N19‑7/p.145
Wensong, Zhu N40‑1/p.191
N21‑7/p.147
Wermes, Norbert NPO1‑6/p.117
Werner, Matt M11‑36/p.206
Wesolek, Christian NPO1‑202/p.133
Wessel, Jan Christopher R06‑4/p.113
J3‑5/p.116
Wessels, Johannes P.
M13‑7/p.214
Westerwoudt, Victor L.
NPO1‑102/p.125
Wharton, C. JN37‑5/p.189
N25‑6/p.150
Wheadon, Richard J2‑2/p.115
NPO2‑221/p.178
Wheeler, Richard NPO2‑37/p.164
White, Brian N39‑8/p.191
White, Paul N39‑8/p.191
Widen, Jim E.M16‑52/p.230
Wiebe, Sheldon M12‑6/p.210
Wiedner, Dirk N17‑6/p.111
Wielend, Oliver NPO1‑21/p.118
NPO1‑20/p.118
Wiener, Rony I.J1‑7/p.114
M18‑36/p.237
Wiesinger, Florian M12‑50/p.213
Wiggins, Brenden R14‑5/p.203
Wilbur, D. Scott M14‑1/p.223
Wilde, Fabian NPO2‑47/p.164
Wilderman, Scott J.
N29‑1/p.152
Wilhelm, Heribert R05‑10/p.136
Williams, George M.
R05‑31/p.137
R07‑2/p.113
Williams, Heather M15‑8/p.224
Willner, Marian S.
M12‑21/p.211
M20‑6/p.225
M20‑7/p.225
Wilm, Jakob M18‑40/p.237
Wilpert, Thomas NPO1‑201/p.133
NPO1‑224/p.134
Wilson, Cody M.
N37‑1/p.189
Wilson, David M11‑1/p.204
Wilson, Paul P.N18‑1/p.112
Wimberley, Catriona J.
M13‑12/p.215
M11‑43/p.207
Winey, Brian M21‑21/p.241
Wing, Matthew NPO2‑145/p.172
NPO2‑103/p.169
Winkler, Mark M23‑12/p.250
Winter, Marc N35‑5/p.188
NPO1‑9/p.117
Wintz, Peter NPO2‑176/p.175
Wirth, Joana N16‑3/p.110
Wise, Robert M15‑8/p.224
Witt, Micah N19‑1/p.145
Wittich, Peter N44‑1/p.194
Wiyaporn, Kanyalak M23‑21/p.250
Woelfel, Stefan RD2‑10/p.83
Wollenweber, Scott D.
M08‑4/p.199
M23‑5/p.249
M23‑9/p.250
M12‑50/p.213
Wolsztynski, Eric M23‑17/p.250
Won, Jun Yeon M16‑39/p.229
Wong, Bryan N4‑3/p.90
Wong, Johnny M18‑62/p.239
Wong, Wai‑Hoi M11‑10/p.204
M23‑4/p.249
M23‑26/p.251
M18‑2/p.234
Wong, Winnie SRD2‑10/p.83
RD2‑7/p.83
Wonsak, Sven N41‑4/p.192
Woo, Sang‑Keun M16‑21/p.228
M18‑19/p.235
Woody, Craig L.N2‑4/p.88
N16‑5/p.111
N33‑6/p.186
M21‑52/p.244
M16‑22/p.228
Woolf, Richard SNPO2‑41/p.164
Wootton, Landon RD2‑1/p.83
Wraight, Kenneth R05‑10/p.136
Wu, Bobing NPO2‑69/p.166
N9‑3/p.105
Wu, Chen NPO2‑152/p.173
Wu, Dufan NPO2‑29/p.163
M08‑8/p.199
Wu, Haiyan M18‑65/p.239
Wu, Hongshu NPO1‑13/p.118
Wu, Jing M11‑52/p.208
Wu, Jinyuan N40‑3/p.191
N17‑2/p.111
Wu, Lu NPO2‑160/p.173
Wu, Shukui NPO2‑101/p.169
NPO2‑100/p.169
Wu, Tai Chieh M12‑9/p.210
Wu, Tung Hsin M18‑25/p.236
Wu, Wen‑Qing NPO2‑137/p.172
NPO2‑133/p.171
Wu, Xiaoke M16‑11/p.227
Wu, Xiaopeng NPO1‑133/p.127
Wu, Xin N31‑2/p.185
Wu, Yibao M05‑1/p.196
Wu, Yuexiang NPO1‑13/p.118
Wu, Yuntao NPO1‑16/p.118
NPO1‑56/p.121
Wuebbeling, Frank M13‑7/p.214
Wuerslin, Christian M10‑5/p.200
Wuestner, Peter NPO2‑176/p.175
Wulf, Eric A.N37‑6/p.189
NPO2‑41/p.164
Wurtz, Jacques M11‑63/p.209
Wuying, Ma NPO2‑160/p.173
Wyrsch, Nicolas N24‑3/p.149
Wyss, Jeff NPO1‑5/p.117
X
Xi, Daoming M09‑6/p.200
M16‑36/p.229
Xi, Wenze NPO2‑54/p.165
Xia, Dan M14‑6/p.223
M25‑1/p.257
Xia, Jiawei M18‑16/p.235
Xia, Lei N2‑7/p.89
Xia, Ting M23‑12/p.250
Xia, Yan M17‑31/p.233
M22‑14/p.246
Xiang, Annie CN17‑5/p.111
Xiao, H. NPO2‑69/p.166
Xiao, Hualin N9‑3/p.105
Xiao, Peng M16‑11/p.227
Xiao, Yongshun NPO2‑174/p.174
Xiaoming, Lu N11‑7/p.107
Xie, Qingguo M16‑34/p.229
M16‑36/p.229
M16‑11/p.227
NPO2‑171/p.174
M09‑6/p.200
Xie, Shuping M11‑8/p.204
Xing, Yuxiang M17‑8/p.232
M17‑23/p.233
M12‑15/p.210
N25‑2/p.149
N19‑8/p.145
Xinyi, Cheng N21‑7/p.147
N11‑7/p.107
Xiong, Wei NPO1‑52/p.121
Xiong, Xiao M12‑1/p.209
Xu, Chen N8‑4/p.92
NPO2‑151/p.173
Xu, H. NPO2‑69/p.166
Xu, Hanhui N9‑3/p.105
Xu, Hong NPO1‑117/p.126
Xu, Hongda NPO2‑179/p.175
Xu, Jianfeng M11‑14/p.205
M16‑30/p.229
Xu, Jingyan M21‑65/p.245
M11‑55/p.208
M12‑55/p.214
M11‑53/p.208
M15‑6/p.224
Xu, Tianpeng J2‑6/p.115
Xu, Xiaofei M22‑38/p.248
Xu, Yadong R09‑7/p.158
R10‑7/p.159
Xu, Yuanlai R04‑2/p.95
Xu, Zhangbu NPO1‑118/p.126
Xu, Zhenyu NPO1‑59/p.121
Xue, Tao NPO2‑206/p.177
NPO2‑212/p.177
Y
Yagi, Hideki NPO1‑33/p.119
NPO1‑41/p.120
NPO1‑40/p.120
Yahil, Amos M17‑33/p.233
Yahiro, Eriko NPO1‑198/p.132
Yamada, Naoyuki NPO1‑164/p.130
N28‑4/p.152
Yamada, Norifumi L.
N23‑5/p.148
N7‑3/p.91
Yamada, Ryuta N8‑2/p.92
Yamada, Takahito NPO1‑116/p.126
Yamaga, Mitsuhiro N30‑3/p.153
NPO2‑134/p.171
Yamaguchi, Mitsutaka M21‑5/p.240
M11‑21/p.205
M18‑35/p.237
Yamaguchi, Satoshi M21‑19/p.241
Yamaguchi, Yorito L.
N10‑3/p.106
Yamaji, Akihiro NPO1‑49/p.121
NPO1‑53/p.121
NPO1‑67/p.122
N22‑6/p.148
NPO1‑34/p.119
NPO1‑70/p.122
Yamami, Hitomi NPO1‑153/p.129
Yamamoto, Junpei M18‑56/p.238
Yamamoto, Koei NPO1‑89/p.124
N8‑2/p.92
Yamamoto, Seiichi M12‑54/p.213
N43‑6/p.193
M21‑51/p.244
HY1‑2/p.98
N36‑3/p.188
NPO1‑155/p.129
N28‑3/p.152
M11‑54/p.208
NPO2‑43/p.164
Yamamoto, Tokonatsu M13‑4/p.214
Yamamoto, Yosuke NPO2‑10/p.161
Yamamura, Tomoo NPO1‑34/p.119
Yamane, Tomohiko M11‑69/p.209
Yamani, Raouf M21‑30/p.242
Yamanoi, Kohei NPO1‑83/p.123
Yamashita, Fumitaka NPO2‑10/p.161
Yamashita, Hayate R13‑1/p.202
Yamashita, Satoru NPO1‑116/p.126
Yamashita, Takaji N12‑1/p.107
Yamashita, Tomohiro HT3‑8/p.81
Yamashita, Yoshiki M12‑18/p.211
M12‑28/p.211
Yamauchi‑Kawaura, Chiyo M22‑43/p.248
Yamaya, Taiga M21‑25/p.242
M21‑13/p.241
M12‑45/p.213
M07‑1/p.197
M21‑47/p.244
M07‑2/p.198
M21‑59/p.244
M11‑11/p.205
M05‑5/p.196
M12‑52/p.213
M11‑17/p.205
M22‑13/p.246
HT3‑2/p.80
M16‑15/p.228
M11‑7/p.204
M16‑14/p.228
M12‑53/p.213
NPO1‑29/p.119
M21‑16/p.241
NPO2‑58/p.165
Yamazaki, Atsushi NPO1‑220/p.134
NPO1‑208/p.133
NPO1‑205/p.133
N39‑7/p.191
NPO1‑149/p.128
Yampri, Pinyo M22‑24/p.247
M12‑4/p.210
Yan, Jianhua M08‑7/p.199
Yan, Pengyu M16‑6/p.227
Yanada, Toshikazu NPO1‑28/p.119
Yanagida, Satoko NPO1‑38/p.120
Yanagida, Takayuki NPO1‑165/p.130
NPO1‑172/p.130
NPO1‑36/p.120
NPO1‑171/p.130
NPO1‑39/p.120
NPO1‑33/p.119
N23‑5/p.148
NPO1‑19/p.118
NPO1‑35/p.120
NPO1‑38/p.120
NPO1‑28/p.119
NPO1‑40/p.120
NPO1‑189/p.132
NPO1‑41/p.120
N39‑7/p.191
NPO1‑25/p.119
NPO1‑170/p.130
NPO1‑205/p.133
NPO1‑208/p.133
N39‑6/p.190
N9‑4/p.105
Yanagitani, Takagimi NPO1‑33/p.119
NPO1‑40/p.120
NPO1‑41/p.120
Yanase, Masatoshi M18‑56/p.238
Yang, Che Hua M12‑9/p.210
Yang, Chung S.M21‑33/p.242
Yang, Fan NPO2‑152/p.173
N32‑3/p.186
NPO1‑48/p.121
N32‑6/p.186
NPO1‑14/p.118
Yang, Gang Y.N23‑8/p.148
Yang, Ge R02‑1/p.93
R13‑5/p.202
J4‑3/p.160
R06‑3/p.113
R10‑4/p.159
R10‑5/p.159
R05‑21/p.136
R09‑3/p.158
R13‑3/p.202
R05‑41/p.138
R05‑22/p.136
R05‑28/p.137
R05‑16/p.136
R05‑11/p.136
R13‑4/p.202
Yang, Guangliang NPO1‑22/p.119
Yang, Guian NPO1‑117/p.126
Yang, Hao R09‑6/p.158
J4‑2/p.160
R15‑7/p.226
Yang, Jianbo NPO2‑15/p.162
Yang, Kai M22‑6/p.246
M22‑5/p.246
M12‑32/p.212
Yang, Kan N4‑5/p.90
NPO1‑73/p.123
Yang, Keedong M12‑2/p.210
NPO1‑160/p.129
Yang, Kidong R05‑6/p.135
Yang, Kwangmo NPO1‑214/p.134
Yang, Min M22‑33/p.247
M22‑32/p.247
Yang, Ping N22‑2/p.147
Yang, Qian NPO1‑118/p.126
Yang, Qiao M22‑35/p.248
Yang, Rongxing NPO1‑118/p.126
Yang, Ru NPO1‑91/p.124
Yang, Seul Ki NPO1‑98/p.125
NPO1‑7/p.117
Yang, Sheng NPO2‑117/p.170
Yang, Weili M18‑65/p.239
Yang, Yao M17‑22/p.233
Yang, Yifan NPO2‑169/p.174
Yang, Yigang NPO2‑15/p.162
N7‑1/p.91
NPO2‑20/p.162
NPO1‑204/p.133
Yang, Yongfeng M05‑1/p.196
M21‑50/p.244
M09‑1/p.199
J1‑2/p.114
Yang, Yoon Seok NPO2‑189/p.175
Yang, Zhi M17‑30/p.233
Yano, Yuki M12‑54/p.213
Yao, Jingwu M23‑41/p.252
M23‑40/p.252
Yao, Rutao M11‑60/p.208
Yarema, Raymond N14‑4/p.109
Yaroshenko, Andre M20‑5/p.225
Yashin, Ivan NPO2‑123/p.170
Yasuda, Kazuhito R13‑1/p.202
Yasuda, Koichi M21‑19/p.241
Yasue, Shinichi NPO2‑175/p.174
Yasumoto, Masaru N27‑1/p.151
Yatigammana, Dylan M15‑8/p.224
Yaver, Harold NPO2‑84/p.167
Ye, Hongwei M23‑12/p.250
Ye, Jingbo N17‑5/p.111
Ye, Jong Chul M12‑31/p.212
M15‑4/p.224
Yee, Ryan M.N38‑1/p.189
Yen, Wen‑Wei NPO2‑172/p.174
Yeo, Sunmog R05‑24/p.137
Yeom, Jung Yeol M21‑38/p.243
M11‑18/p.205
J1‑8/p.114
Yeom, Yeon Soo N18‑1/p.112
NPO1‑131/p.127
N45‑5/p.195
Yi, Chul‑Young M18‑41/p.237
Yi, Hengguan NPO2‑32/p.163
NPO2‑29/p.163
N15‑6/p.110
Yin, Hongxia M17‑17/p.232
Yin, Yannan M12‑53/p.213
Yin, Yong‑Gen NPO2‑43/p.164
Ying, Kui M17‑31/p.233
M13‑3/p.214
Yokkaichi, Satoshi NPO1‑120/p.126
Yokota, Yuui NPO1‑49/p.121
N4‑6/p.90
NPO1‑70/p.122
NPO1‑44/p.120
NPO1‑67/p.122
N4‑8/p.90
NPO1‑55/p.121
N4‑4/p.90
NPO1‑80/p.123
NPO1‑50/p.121
N12‑5/p.107
M11‑35/p.206
NPO1‑53/p.121
NPO1‑34/p.119
NPO1‑81/p.123
NPO1‑185/p.131
N23‑4/p.148
N22‑6/p.148
NPO1‑82/p.123
Yokoyama, Harumichi NPO1‑116/p.126
Yokoyama, Masashi N24‑5/p.149
Yonggang, Wang N21‑7/p.147
N11‑7/p.107
N40‑1/p.191
Yoo, Hyung‑Jun M18‑41/p.237
Yoo, Hyunjun NPO1‑139/p.128
NPO2‑213/p.177
NPO1‑137/p.128
NPO1‑18/p.118
NPO1‑140/p.128
NPO1‑161/p.129
NPO1‑111/p.126
NPO1‑163/p.130
Yoo, Kwaehwan N42‑4/p.193
Yoo, Won Sik NPO1‑66/p.122
Yoo, Wook Jae NPO1‑58/p.121
NPO1‑60/p.122
Yoon, Changyeon R03‑5/p.94
Yoon, Choong J.N24‑4/p.149
Yoon, Dae‑Kun NPO2‑216/p.177
Yoon, Hyun Suk M16‑39/p.229
M21‑64/p.245
M16‑44/p.230
M16‑51/p.230
Yoon, Won Sik N22‑7/p.148
Yoon, Yongsu NPO1‑138/p.128
Yoshida, Eiji M07‑1/p.197
M12‑52/p.213
M12‑53/p.213
M21‑16/p.241
M21‑13/p.241
M12‑45/p.213
M07‑2/p.198
M16‑15/p.228
M16‑14/p.228
M11‑17/p.205
M21‑25/p.242
NPO2‑58/p.165
HT3‑2/p.80
M11‑7/p.204
Yoshida, Hajime NPO2‑130/p.171
Yoshida, Jin NPO1‑149/p.128
Yoshida, Keisuke NPO1‑153/p.129
Yoshida, Noriyuki N42‑1/p.192
Yoshikawa, Akira NPO1‑34/p.119
NPO1‑208/p.133
NPO1‑70/p.122
N12‑5/p.107
NPO1‑50/p.121
NPO1‑205/p.133
NPO1‑44/p.120
NPO1‑185/p.131
N23‑4/p.148
NPO1‑53/p.121
M11‑15/p.205
NPO1‑80/p.123
M11‑35/p.206
NPO1‑81/p.123
NPO1‑55/p.121
N22‑6/p.148
N4‑8/p.90
M21‑51/p.244
NPO1‑83/p.123
NPO1‑49/p.121
NPO1‑67/p.122
NPO1‑82/p.123
N4‑6/p.90
N4‑4/p.90
Yoshimune, Ogata N36‑4/p.188
Yoshino, Masao M11‑35/p.206
M11‑15/p.205
NPO1‑185/p.131
Yoshioka, Kenichi N42‑1/p.192
Yoshizawa, Michio NPO1‑210/p.133
Youn, Hanbean M21‑49/p.244
M13‑21/p.215
M13‑25/p.216
Younan, Nicolas H.
NPO2‑38/p.164
Youngman, Christopher N30‑2/p.153
N45‑1/p.194
NPO2‑145/p.172
Yousuf, Omair M23‑41/p.252
M23‑40/p.252
Yu, A Ram M23‑3/p.249
Yu, A‑Ram M11‑58/p.208
Yu, Baihui NPO2‑29/p.163
N15‑6/p.110
NPO2‑32/p.163
Yu, Bo N11‑1/p.106
Yu, Fei M12‑37/p.212
Yu, Hao NPO1‑200/p.132
Yu, Jaehoon M18‑46/p.238
Yu, Yunhan M17‑31/p.233
M18‑45/p.237
Yuan, Ding N4‑3/p.90
Yuan, Hui NPO1‑52/p.121
Yuan, Yuan M18‑65/p.239
Yue, Jianting M06‑4/p.197
M03‑8/p.156
Yue, Qian N15‑6/p.110
N20‑6/p.146
Yue, Shihai NPO2‑63/p.166
Yue, Xiaoguang NPO2‑32/p.163
N15‑6/p.110
Yun, Chong Cheoul NPO2‑85/p.167
NPO1‑124/p.127
Yun, Hyuk Jin M18‑67/p.239
Yun, Sanghun M21‑49/p.244
Yun, Seungman M21‑49/p.244
M13‑21/p.215
M13‑25/p.216
Yurgelevych, Iryna V.
R05‑23/p.137
Yusa, Yosuke NPO1‑153/p.129
Z
Zabransky, B. J.N38‑1/p.189
Zahra, David M13‑12/p.215
M11‑43/p.207
Zaider, Marco N28‑8/p.152
NPO2‑56/p.165
N19‑4/p.145
RD2‑8/p.83
RD1‑9/p.82
Zaidi, Habib M17‑29/p.233
M23‑30/p.251
M23‑37/p.252
M18‑58/p.238
Zaitseva, Natalia N20‑2/p.146
Zakari‑Issoufou, Abdoul‑Aziz N42‑3/p.193
Zakharuk, Zinaida R05‑3/p.135
Zambelli, Nicola R10‑6/p.159
R05‑30/p.137
Zambon, Pietro N26‑4/p.150
N46‑6/p.195
Zampa, Gianluigi M21‑45/p.243
N31‑7/p.185
N14‑8/p.109
Zampa, Nicola N31‑7/p.185
M21‑45/p.243
N14‑8/p.109
Zamyatin, Alexander A
M17‑21/p.232
M17‑30/p.233
Zan, Yunlong M06‑3/p.197
Zang, Andrea M12‑8/p.210
Zani, Margherita N19‑3/p.145
HT2‑2/p.79
N19‑2/p.145
RD2‑3/p.83
Zappettini, Andrea R05‑50/p.139
R05‑30/p.137
R10‑6/p.159
Zappon, Francesco N14‑5/p.109
Zarchin, Oren R02‑4/p.94
Zarubin, Andrey R05‑34/p.137
Zatserklaniy, Andriy N19‑1/p.145
Zavalla, Kelvin J.R05‑14/p.136
R11‑2/p.201
Zazvorka, Jakub R05‑20/p.136
R03‑3/p.94
Zdybal, Milosz NPO2‑149/p.172
Zee, Machiel NPO1‑196/p.132
Zeiger, Benjamin N9‑6/p.105
Zeinali, Banafsheh RD2‑11/p.83
Zeitelhack, Karl NPO1‑196/p.132
NPO2‑138/p.172
N7‑8/p.92
Zemlicka, Jan NPO2‑56/p.165
RD2‑8/p.83
N19‑4/p.145
Zen, Heishun NPO1‑72/p.122
NPO2‑30/p.163
Zeng, Biao M18‑65/p.239
Zeng, Chen M09‑6/p.200
M16‑36/p.229
Zeng, Dong M12‑30/p.212
Zeng, Gengsheng L.
M17‑21/p.232
M17‑13/p.232
Zeng, Ming NPO2‑206/p.177
NPO2‑32/p.163
NPO2‑205/p.177
N15‑6/p.110
NPO2‑212/p.177
Zeng, Yanping NPO1‑13/p.118
Zeng, Zhi NPO2‑29/p.163
N15‑6/p.110
NPO2‑32/p.163
Zervakis, Emmanouil N14‑6/p.109
Zha, Gangqiang R10‑7/p.159
Zhang, Fei NPO2‑117/p.170
Zhang, Feng R02‑5/p.94
J4‑2/p.160
R09‑6/p.158
Zhang, Guopeng M22‑42/p.248
Zhang, Hao M22‑41/p.248
M13‑27/p.216
M22‑9/p.246
M17‑18/p.232
M15‑3/p.224
Zhang, Hongfei NPO2‑207/p.177
Zhang, Hongyan NPO1‑199/p.132
Zhang, Hua M17‑12/p.232
Zhang, Jia Y.NPO2‑117/p.170
Zhang, Jiaguo N30‑1/p.153
N14‑7/p.109
R07‑1/p.113
Zhang, Jian‑Chuan R06‑1/p.113
Zhang, Jiutang M18‑65/p.239
Zhang, Kevin N17‑2/p.111
Zhang, Kong NPO1‑13/p.118
Zhang, L. NPO2‑69/p.166
Zhang, Laiyu N9‑3/p.105
Zhang, Lan R05‑27/p.137
Zhang, Li M22‑38/p.248
M15‑2/p.223
M18‑52/p.238
M17‑17/p.232
M13‑26/p.216
N9‑3/p.105
M08‑8/p.199
Zhang, Liyuan NPO2‑152/p.173
N32‑3/p.186
NPO1‑48/p.121
N32‑6/p.186
Zhang, Ran M13‑26/p.216
Zhang, Shuangnan NPO2‑69/p.166
N9‑3/p.105
Zhang, Taipeng NPO2‑18/p.162
Zhang, Xiaodong N36‑8/p.188
NPO2‑28/p.163
NPO2‑67/p.166
NPO1‑79/p.123
Zhang, Xuezhu M11‑26/p.206
M03‑1/p.156
M11‑39/p.207
Zhang, Yongjie NPO2‑69/p.166
N9‑3/p.105
Zhang, Yuexing M21‑43/p.243
M24‑3/p.257
Zhang, Yunwan M12‑30/p.212
Zhang, Yuxuan M11‑10/p.204
M18‑2/p.234
M23‑26/p.251
M23‑4/p.249
Zhang, Zheng M12‑33/p.212
M22‑33/p.247
M22‑32/p.247
M09‑7/p.200
Zhang, Zhi MM11‑5/p.204
Zhao, Cuilan NPO2‑26/p.163
Zhao, Jingzhou N33‑5/p.186
Zhao, Wei J3‑8/p.116
R12‑2/p.201
Zhao, Xuping M18‑65/p.239
Zhao, Yikai M22‑40/p.248
Zhao, Yong M18‑68/p.239
Zhao, Ziran NPO2‑32/p.163
N15‑6/p.110
NPO2‑29/p.163
Zheng, Wei NPO2‑49/p.165
Zheng, Xiaofen M13‑14/p.215
M16‑4/p.227
Zheng, Ziyi M22‑27/p.247
M18‑71/p.239
Zhi, Deng M16‑54/p.230
Zhmurin, Petro N
NPO1‑187/p.131
NPO1‑188/p.131
Zhmurin, Piotr N
N20‑2/p.146
Zhou, Jian M16‑1/p.227
M03‑1/p.156
M05‑1/p.196
Zhou, Jumei M18‑65/p.239
Zhou, Lin M18‑26/p.236
M18‑10/p.235
M17‑27/p.233
M08‑2/p.198
Zhou, Victor WM18‑11/p.235
Zhou, Yao NPO1‑52/p.121
Zhou, Yun M06‑2/p.197
Zhu, Diling NPO2‑113/p.170
Zhu, Jun M16‑11/p.227
Zhu, Nuo SN23‑8/p.148
Zhu, Ren‑Yuan NPO2‑152/p.173
N32‑3/p.186
Zhu, Suyu M18‑65/p.239
Zhu, Wei M22‑42/p.248
Zhu, Weiping NPO1‑119/p.126
NPO1‑114/p.126
Zhu, Xiaorong Ronald M21‑8/p.240
M02‑1/p.155
NPO2‑157/p.173
M21‑26/p.242
Zhu, Xuezhou N40‑4/p.191
M16‑54/p.230
Zhu, Xuping M21‑21/p.241
Zhu, Ying NPO2‑107/p.169
Zhu, Yong NPO2‑152/p.173
NPO2‑63/p.166
Zhu, Yuefeng J4‑2/p.160
R09‑6/p.158
Zhuang, Ling M08‑6/p.199
Zhuravleva, Mariya NPO1‑47/p.121
NPO1‑226/p.123
NPO1‑76/p.123
Ziębliński, Mirek NPO1‑21/p.118
Ziegler, James N28‑8/p.152
RD1‑9/p.82
Ziegler, Sibylle I.NPO1‑152/p.129
M25‑7/p.258
M11‑40/p.207
M11‑48/p.207
NPO1‑107/p.125
Ziemons, Karl M18‑38/p.237
Zier, Jacob C.NPO2‑41/p.164
Zimmer, Manfred N30‑1/p.153
Zimmerman, Colin NPO1‑22/p.119
Zimmerman, Tom N40‑7/p.191
Zimmermann, Sergio N26‑8/p.151
Zinets, Oleg NPO2‑44/p.164
Ziock, Klaus P.N36‑7/p.188
N25‑1/p.149
Zivkovic, Vladimir N14‑5/p.109
Zolfagharinia, Hamid M15‑8/p.224
Zontar, Dejan M11‑41/p.207
Zorraquino, Carlos M16‑49/p.230
Zorzi, Nicola R05‑39/p.138
N41‑1/p.192
M14‑2/p.223
N13‑2/p.108
Zou, Yu M21‑43/p.243
M24‑3/p.257
Zron, Carl NPO2‑54/p.165
Zucca, Stefano NPO1‑8/p.117
Zuffa, Mirco N14‑8/p.109
M13‑29/p.216
M21‑45/p.243
Zuvic, Milan NPO1‑183/p.131
N30‑5/p.153
Zvelebil, Marketa M13‑19/p.215
Zwaans, Ben M16‑46/p.230
Zwerger, Andreas R01‑8/p.93
J3‑3/p.115
R15‑2/p.226
R01‑3/p.93
Zwolinska, Ania NPO2‑69/p.166
N9‑3/p.105
Acknowledgment
The success of the 2013 Nuclear Science Symposium, Medical
Imaging Conference, and Room Temperature Semiconductor
Detector Workshop would not be possible without the
tremendous effort of the Organizing Committee (OC) and all
the other volunteers including Advisory Committee and PCO
associated with the conference. The organization of an IEEE
meeting in Korea, 1st time in Asia-Pacific area, presents some
unique challenges, and the committee has done a superb job
in resolving the issues smoothly so as to make the conference
a scientific, social, and financial success. As General Chair, it
has been a great pleasure working with such an outstanding
team and I thank them sincerely for the enriching experience.
It has been especially rewarding working with my friends and
colleagues from Korea and to organize several on-site meetings
with foreign OC members who willingly travelled to the beautiful
city of Seoul several times.
This conference, and the ability of the volunteers to work on it,
is made possible through the sponsorship of the IEEE Nuclear
and Plasma Sciences Society (NPSS) and through the generous
support of the cooperating institutions and organizations listed
on the inside front cover. I am indeed fortunate to have such a
hard working and skilled committee - the key to the success of
such a complex conference. All of the committee members have
shown their dedication to the conference, their willingness to
compromise where needed, and their ability to work together even over long distances.
The support from Korea Government, Institutions, and industries
has been especially encouraging. Following the submission of
a record number of abstracts in all categories, although this
is the 1st time in Asia-Pacific area at such difficult time with
political as well as economical issues, the Scientific Program
Chairs performed an outstanding and timely job in assembling
the contributed papers so as to maximize the benefit to the
attendees. I sincerely thank all the Program Chairs for their
efforts. Of course, there would not be a conference without
the outstanding contributions from all of the authors and
attendees. I wish to thank you for continuing to assure that the
IEEE NSS/MIC/RTSD maintains its reputation for the outstanding
intellectual and scientific content of the conference.
We are very confident that the meeting in Seoul will undoubtedly
be very successful and be celebrated for the 60th Anniversary of
NSS as well as 20th Anniversary of RTSD and continue to travel
to the “Beyond Imagination of Future Science”.
Hee-Joung Kim
General Chair
Acknowledgment 309
Advisory Committee
Jong Kyung Kim
[email protected]
President of Korean Nuclear Society
Hanyang University
Young-Hoon Ji
[email protected]
President of Korean Society of
Medical Physics (KSMP)
Korea Institute of Radiological &
Medical Sciences
Jae Sung Lee
Ho-Sin Choi
[email protected]
President of Korean Association for
Radiation Protection (KARP)
KINS
Jong Hyo Kim
[email protected]
Imaging Informatics in Medicine
(KSIIM)
Seoul National University
Kyung Sun
[email protected]
President of The Korean Society of
Medical&Biological Engineering
(KOSOMBE)
Korea University Medical Center
Byung Geel Yu
[email protected]
Chair of Nuclear Physics Division in
The Korean Physical Society (KPS)
Korea Aerospace University
Chang Kwon Hwangbo
[email protected]
President of Optical Society of
Korea (OSK)
Inha University
Young Jin Kim
[email protected]
Radiation Industry (KSRI)
KAERI
Dae Hyuk Moon
[email protected]
President of The Korean Society of
Nuclear Medicine
(KSNM)
Seoul Asan Medical Center
Sung-Jea Ko
[email protected]
President of The Institute of
Electronics Engineers of Korea
(IEEK)
Korea Universit y
Jaehoon Yu
[email protected]
University of Texas Arlington
310 Acknowledgment Chulhee Lee
[email protected]
Yonsei University
NSS Topic Conveners
Sergey Barsuk, LAL Orsay, France
Gyuseong Cho, Korea Advanced Institute of Science and
Technology, South Korea
Paul COLAS, CEA/IRFU, France
Christophe de La Taille, IN2P3 / CNRS, France
Grzegorz W Deptuch, Fermilab, United States
Serge Duarte Pinto, TU Delft, Netherlands
Doris Eckstein, Deutsches Elektronen-Synchrotron DESY, Germany
Ralf Engels, Forschungszentrum Juelich GmbH, Germany
Daniel Haas, Netherlands Institute for Space Research, Netherlands
Tetsuo Iguchi, Nagoya Univ., Japan
Ryosuke Itoh, KEK, Japan
Jinhun Joung, Korea University, South Korea
Alexandra Junkes, Hamburg University, Germany
Ikuo Kanno, Dept. of Nuclear Engineering, Kyoto University, Japan
HongJoo Kim, Department of Physics, Kyungpook National
Richard Kouzes, Pacific Northwest National Lab., United States
Peter Krizan, University of Ljubljana, Slovenia
Markus Kuster, European XFEL GmbH, Germany
Patrick JL Le Du, IPNL, IN2P3, France
Paul R Lecoq, CERN, Switzerland
Zhen-An LIU, Inst. of High Energy Physics, Chinese Academy of
Sciences, China
Abdallah LYOUSSI, CEA, France
Alex Nielsen, Institute for Gravitational Physics (AEI), Germany
Andreas Pfeiffer, CERN, Switzerland
Maria Grazia Pia, INFN Genova, Italy
Stefan Ritt, Paul Scherrer Institute, Switzerland
Leszek Ropelewski, CERN, Switzerland
Anatoly Rosenfeld, University of Wollongong, Australia
Shinichi Sasaki, KEK, Japan
Youngho Seo, University of California, San Francisco, United States
Tae Joo Shin, Pohang Accelerator Laboratory (PAL), South Korea
Tsuyoshi Suwada, KEK, Japan
Hiroyuki Takahashi, Department of Nuclear Engineering and
Management, The University of Tokyo, Japan
Maxim P. Titov, CEA Saclay, IRFU/SPP,
John Valentine, Lawrence Berkeley National Lab., United States
Marc Winter, IPHC - IN2P3/CNRS, France
Bo Yu, Brookhaven National Laboratory, United States
NSS Reviewers
John N Aarsvold, Atlanta Veterans Affairs Medical Center & Emory
University, United States
Marcello Abbrescia, University of Bari, Italy
Acknowledgment 311
Toshinori Abe, RIKEN SPring-8 Center, Japan
Anthony Affolder, Univ of Liverpool, Department of Physics,
United Kingdom
Seong-Kyu Ahn, KAERI, South Korea
Alberto Aloisio, University of Naples 'Federico II' and I.N.F.N., Italy
George Alverson, Northeastern Univ., United States
Pierre-André Amaudruz, TRIUMF, Canada
Ladislav Andricek, MPG Halbleiterlabor, Germany
Robert Andritschke, Halbleiterlabor der Max-Planck-Gesellschaft,
Germany
Matteo M. Angarano, SITAEL SpA, Italy
Yasuo Arai, KEK, Japan
Tsukasa Aso, Nagaoka University of Technology, Japan
Etiennette Auffray, CERN, Switzerland
Rachel M Avramidou, National Technical Univ. of Athens, Greece
Brad Barber, University of Arizona, United States
William C Barber, DxRay Inc., United States
Dave Barney, CERN, Switzerland
Sergey Barsuk, LAL Orsay, France
Paul J Barton, Lawrence Berkeley National Lab., United States
Marco Battaglia, SCIPP - UCSC and LBNL, United States
Simone Beer, Central Institute for Electronics, Forschungszentrum
Juelich, Germany
Marcia Begalli, State University of Rio de Janeiro, Brazil
Gregory A Bizarri, LBNL - Berkeley, United States
Christian Bohm, University of Stockholm, Dept of physics, Sweden
Maurizio M. Bonesini, Sezione INFN Milano Bicocca, Italy
Edith Bourret, Lawrence Berkeley National Lab., United States
Nathaniel Bowden, Lawrence Livermore Nat. Lab., United States
Christian Broennimann, DECTRIS AG, Switzerland
Erik Brubaker, Sandia National Laboratories, CA, United States
Sergey A Butsyk, University of Hawaii at Manoa, United States
Massimo L. Caccia, Università dell'Insubria, Italy
Paolo Calafiura, Lawrence Berkeley National Lab., United States
Denis Calvet, CEA Saclay, France
Mar Capeans, CERN, Switzerland
Alessandro Cardini, INFN Sezione di Cagliari, Italy
Frédérick Carrel, CEA, France
Gabriella Catanesi, INFN Bari, Italy
Arion F Chatziioannou, UCLA Crump Institute, United States
Abhijit J Chaudhari, UC Davis School of Medicine, United States
Nerine Cherepy, Lawrence Livermore National Lab., United States
Simon R Cherry, University of California-Davis, United States
Giorgio Chiarelli, INFN Sez. di Pisa, Italy
David Chichester, Idaho National Laboratory, United States
Gabriele Chiodini, Istituto Nazionale di Fisica Nucleare - Lecce, Italy
Remi Chipaux, CEA DSM/IRFU/SEDI, France
Woon-Seng Choong, Lawrence Berkeley Nat. Lab., United States
Finn Christensen, DTU-Space, Denmark
David Christian, Fermilab, United States
Yong Hyun Chung, Department of Radiological Science, Yonsei
Radovan Chytracek, R. C. Consult, Switzerland
Carlo Civinini, INFN-Firenze, Italy
Neal Clinthorne, University of Michigan, United States
312 Acknowledgment David J.A. Cockerill, Rutherford Appleton Laboratory, United
Kingdom
Paul COLAS, CEA/IRFU, France
Maurizio Conti, Siemens, United States
John A Correia, Massachusetts General Hospital/Harvard Medical
School, United States
Gloria Corti, CERN, Switzerland
Cinzia Da Via, University of Manchester /CERN, United Kingdom
Ioan Dafinei, Istituto Nazionale di Fisica Nucleare, Italy
Magnus Dahlbom, David Geffen School of Medicine at UCLA,
United States
Gian-Franco Dalla Betta, University of Trento and INFN, Italy
Maurizio Dapor, Interdisciplinary Laboratory for Computational
Science, FBK, Trento, Italy
alberto del guerra, University Pisa, Italy
Marcel Demarteau, Argonne National Laboratory,
Stephen E Derenzo, Lawrence Berkeley National Laboratory,
United States
Timothy DeVol, Clemson University, Environmental Engineering
and Earth Sciences Department, United States
Anna Di Ciaccio, university of roma tor vergata and INFN, Italy
Guenther Dissertori, Institute for Particle Physics, ETH Zurich,
Switzerland
Madhu S Dixit, Carleton University & TRIUMF, Canada
Pieter Dorenbos, Delft University of Technology, Netherlands
Fred Patrick Doty, Sandia National Laboratory, United States
Gary Drake, Argonne National Laboratory, United States
Winicjusz Drozdowski, Nicolaus Copernicus University, Poland
Serge Duarte Pinto, TU Delft, Netherlands
Christophe Dujardin, University Lyon1, France
James Ely, Pacific Northwest National Laboratory, United States
John C. Engdahl, Bradley University, United States
Lars A Eriksson, Siemens Medical Solutions, Molecular Imaging,
United States
Lorenzo Fabris, Oak Ridge National Laboratory, United States
Riccardo Fantechi, INFN - Sezione di Pisa, Italy
Viviana Fanti, Dipartimento di Fisica dell'Universita' di Cagliari e
INFN sezione di Cagliari, Italy
Philippe Farthouat, CERN, Switzerland
Alessandro Ferretti, Torino University and INFN, Italy
Fernando Ferroni, Univ. di Roma La Sapienza & INFN Roma, Italy
Fine Fiedler, Helmholtz-Zentrum Dresden-Rossendorf, Germany
Philippe Filliatre, CEA Cadarache, France
Carlo Fiorini, Politecnico di Milano, Italy
Rejean Fontaine, University of Sherbrooke, Canada
Raymond Frey, Univ. of Oregon, United States
Tobias Funk, Triple Ring Technologies, United States
Kazuro Furukawa, High Energy Accelerator Research Organization
(KEK), Japan
Nikolai Z Galunov, Institute for Scintillation Materials, National
Ac.Science of Ukraine, Ukraine
Chilo Garabatos, GSI,
Francisco Garcia, Helsinki Institute of Physics and Department of
Physcal Sciences, University of Helsinki, Finland
Acknowledgment 313
Erika Garutti, University of Hamburg, Germany
Romain Gaume, University Central Florida, United States
Evangelos N. Gazis, National Technical University of Athens, Greece
JeanFrancois C. Genat, University of Chicago, United States
Jean-Francois C Genat, CNRS/IN2P3/LPNHE, France
Dimitry Ginzburg, Radiation Detection Department, Rotem
Industries Ltd, , Israel
Jarek Glodo, Radiation Monitoring Devices, United States
Kondo Gnanvo, University of Virginia, United States
Andrew L Goertzen, University of Manitoba, Canada
faustino gomez, University of Santiago, Spain
Bruno M.S. Gonçalves, Instituto de Plasmas e Fusão Nuclear,
Portugal
Heinz Graafsma, DESY, Germany
Fabiana Gramegna, Laboratori Nazionali di Legnaro - I.N.F.N., Italy
Francesco Grancagnolo, Istituto Nazionale di Fisica Nucleare, Italy
Joern Grosse-Knetter, Univertsitaet Goettingen, Germany
Martin Grossmann, PSI, Switzerland
Chiara Guazzoni, Politecnico di Milano and INFN, Italy
Frezghi Habte, Stanford University, United States
Michael Hagelstein, Karlsruhe Institute of Technology, Germany
Andreas Haungs, Karlsruhe Institute of Technology - KIT, Germany
Eric S Hazen, Boston University, United States
Zhong He, The University of Michigan, United States
Erik H Heijne, CERN - IEAP/CTU - NIKHEF, Switzerland
Nolan Hertel, Georgia Institute of Technology, United States
Richard D Hichwa, University of Iowa, United States
Hartmut Hillemanns, CERN, Switzerland
Gabriela Hoff, Pontifical Catholic Univ. in Rio Grande do Sul, Brazil
Marcus Hohlmann, Florida Institute of Technology, United States
Jaesub Hong, Harvard-Smithsonian Astrophysical Observatory,
United States
Klaus Honscheid, Ohio State University, United States
Alexander Howard, ETH, Zurich, Switzerland
Zhifeng Huang, UCLA, United States
Hirokazu Ikeda, ISAS, JAXA, Japan
Pier Giorgio Innocenti, CERN, Switzerland
Jan S. Iwanczyk, DxRay, Inc., United States
Joanna Iwanowska, National Centre for Nuclear Research, Poland
Hiroyuki Iwasaki, KEK, Japan
Richard Jacobsson, CERN, Switzerland
Ralph James, Brookhaven National Laboratory, United States
Martin Janecek, Lawrence Berkeley National Lab., United States
Pierre Jarron, cern university of Torino, Switzerland
Sungchae Jeon, Advanced medical device research center, KERI,
South Korea
Tomasz Jezynski, DESY, Germany
Xiaoshan Jiang, Institute of High Energy Physics,
Valentin T Jordanov, Yantel, LLC, United States
Jinhun Joung, Nutec Solutions, United States
Alexandra Junkes, Hamburg University, Germany
Chien-Min Kao, The University of Chicago, United States
Jan Kaplon, CERN, Switzerland
Dean Karlen, University of Victoria, Canada
314 Acknowledgment Scott D Kiff, Sandia National Laboratories, United States
Bong-Hwan Kim, Korea Atomic Energy Research Inst, South Korea
Chan Hyeong KIM, Hanyang University, Department of Nuclear
Engineering, South Korea
Ho Kyung Kim, Pusan National University, South Korea
HongJoo Kim, Department of Physics, Kyungpook National
Hyunduk Kim, Department of Nuclear and Quantum Engineering,
Korea Advanced Institute of Science and Technology, South Korea
Jong Bum Kim, KAERI, South Korea
Sunghwan Kim, Chungju University, South Korea
Yong-Kyun Kim, Hanyang University, South Korea
Young Soo Kim, Korea Atomic Energy Research Institute, South
Korea
Nikolay Vladimir Klassen, Institute of Solid State Physics, Russian
Academy of Sciences, Russian Federation
Tatsumi Koi, SLAC, United States
Mikhail Korjik, RINP, Minsk, Belarus, Belarus
Samo Korpar, University of Maribor, Slovenia
Richard Kouzes, Pacific Northwest National Lab., United States
Peter Krizan, University of Ljubljana, Slovenia
Wolfgang Kuehn, Univ. Giessen, II. Physikalisches Institut, Germany
Markus Kuster, European XFEL GmbH, Germany
Ernesto Lamanna, Magna Graecia University Cz & INFN Gruppo
Collegato Cs, Italy
Massimo Lamanna, CERN IT division, Switzerland
Richard C Lanza, MIT, United States
Wim T.L.P. Lavrijsen, LBNL, United States
James W LeBlanc, GE Research, United States
Roger LECOMTE, Université de Sherbrooke, Canada
Paul R Lecoq, CERN, Switzerland
Jae Sung Lee, Department of Nuclear Medicine, Seoul National
University College of Medicine, South Korea
Kisung Lee, Korea University, United States
Wanno Lee, Korea Atomic Energy Research Institute (KAERI), South
Korea
Wonho Lee, Korea University, South Korea
Charles Leggett, Lawrence Berkeley National Lab., United States
Michael L.F. Lerch, University of Wollongong, Australia
Craig S. Levin, Stanford University, United States
Micheal LeVine, Brookhaven National Laboratory, United States
Fei Li, Institute of High-Energy Physics, CAS, China
Zheng Li, Brookhaven National Lab, United States
Dietrich Liko, HEPHY Vienna, Austria
Yinong Liu, Tsinghua University, China
Zhen-An LIU, Inst. of High Energy Physics, Chinese Academy of
Sciences, China
Herbert Loehner, KVI, University Groningen, Netherlands
Francesco Longo, Department of Physics, University of Trieste and
INFN, Trieste, Italy
Eleonora Luppi, Ferrara University and INFN, Italy
Hong Ma, Brookhaven National Laboratory, United States
Acknowledgment 315
Lawrence R MacDonald, University of Washington, United States
Giampiero Mancinelli, Aix - Marseille Universite', France
Emanuele Mandelli, Altasens Inc., United States
Alexander B Mann, Technische Universität München, Germany
Rihua Mao, Shanghai Institute of Ceramics, Chinese Academy of
Sciences, China
Peter A Marleau, Sandia National Laboratories, United States
John Mattingly, North Carolina State University, United States
Robert M Mayo, Johns Hopkins University Applied Physics
Giovanni Mazza, INFN sez. di Torino, Italy
Steven R Meikle, University of Sydney, Australia
Chuck Melcher, University of Tennessee, United States
Satoshi Mihara, KEK, Japan
Marko Mikuz, Univ. Ljubljana / Jozef Stefan Institute, Slovenia
Oleg V Missevitch, Institute for Nuclear Problems, Minsk, Belarus
Gregory S Mitchell, UC Davis, United States
Guenakh Mitselmakher, University of Florida, United States
Jun Miyamoto, Lousiana State University, United States
Michael Moll, CERN, Switzerland
Christian Morel, CPPM, Aix-Marseille II University, France
Hans-Günther Moser, Max-Planck-Instutute for Physics,
William W. Moses, Lawrence Berkeley National Lab., United States
Marek Moszynski, National Centre for Nuclear Reserarch, Poland
Koichi Murakami, KEK, Japan
Hideo Murayama, Nat. Institute of Radiological Sciences, Japan
Yuri Musienko, FNAL/INR(Moscow), Switzerland
Andreas Mussgiller, DESY, Germany
Alfredo Musso, INFN-Torino, Italy
Paolo MUTTI, ILL,
Vivek V Nagarkar, RMD, Inc., United States
Eugenio Nappi, INFN Sezione di Bari, Italy, Italy
Filippo Nava, Dip. di Fisica Univ. di Modena e Reggio Emilia, Italy
Francesca Nessi-Tedaldi, ETH Zurich, Switzerland
Martin Nikl, Institute of Physics of Academy of Sciences of the Czech
Republic, Czech Republic
Stéphane Normand, CEA Saclay, France
Rainer W Novotny, 2nd Physics Institute, Univ. Giessen, Germany
Peter D Olcott, Stanford University, United States
Eraldo Oliveri, CERN, Switzerland
Yasar Onel, Univ. of Iowa, United States
Laurent OTTAVIANI, Aix Marseille University, France
Anna Maria Paganoni, ,
Riccardo Paoletti, University of Siena and INFN Pisa, Italy
Adam Para, Fermilab, United States
Hwanbae Park, Kyungpook National University, South Korea
Katia Parodi, Ludwig Maximilian University Munich, Germany
Marc Paterno, FNAL, United States
Mark Pearce, Kungl Tekniska Högskolan, KTH, Sweden
Anna Peisert, CERN, Switzerland
Bertrand Perot, CEA/DEN/DTN, Cadarache, France, France
Marco Petasecca, Centre for Medical Radiation Physics - University
of Wollongong, Australia
Todd E Peterson, Vanderbilt University, United States
Ashot Petrosyan, Institute for Physical Research, National Academy
316 Acknowledgment of Science of Armenia, Armenia
Maria Grazia Pia, INFN Genova, Italy
Michael J Pivovaroff, Lawrence Livermore Nat. Lab., United States
Vlladimir Popov, Thomas Jefferson National Accelerator Facility,
United States
Stanislav Pospisil, Institute of Experimental and Applied Physics,
Czech Technical University in Prague, Czech Republic
Michela Prest, universita` dell'Insubria e INFN Milano Bicocca, Italy
Martin L Purschke, Brookhaven National Lab, United States
Francesco Quarati, Faculty of Applied Science, Delft University of
Technology, Netherlands
Lina Quintieri, INFN - LNF, Italy
Francisco Javier Ramírez-Jiménez, Instituto Nacional de
Investigaciones Nucleares, Mexico
Lodovico Ratti, University of Pavia, Italy
Federico Ravotti, CERN, Switzerland
Kay Rehlich, DESY, Germany
Jose Repond, Argonne National Laboratory, United States
Fabrice Retiere, TRIUMF, Canada
Stefan Ritt, Paul Scherrer Institute, Switzerland
Angelo Rivetti, INFN - Sezione di Torino, Italy
Stefan Roiser, CERN, Switzerland
Anatoli Romaniouk, CERN, Swaziland
Gary J Royle, University College London, United Kingdom
Lorraine E Sadler, Sandia National Laboratories, United States
Hartmut F.-W. Sadrozinski, Santa Cruz Institute for Particle Physics,
Univ. of California Santa Cruz, United States
Kaoru Sakasai, Japan Atomic Energy Agency, Japan
Denison Souza Santos, Inst. de Radioproteção e Dosimetria, Brazil
Paolo Saracco, INFN Genova, Italy
Takashi Sasaki, KEK, Japan
Ryu Sawada, ICEPP, the University of Tokyo, Switzerland
Dennis R Schaart, Delft University of Technology, Netherlands
Matthias Schmand, Siemens Healthcare MI, United States
Burkhard Schmidt, CERN, Switzerland
Hee Seo, Korea Atomic Energy Research Institute, South Korea
Yiping Shao, The University of Texas M.D. Anderson Cancer Center,
United States
Marco Silari, CERN, Switzerland
Frank Simon, Max-Planck-Institut fuer Physik, Germany
Graham Smith, Brookhaven National Laboratory, United States
Mark F Smith, Univ. of Maryland School of Medicine, United States
Michael Squillante, Radiation Monitoring Devices, Inc., United
States
Marcel Stanitzki, DESY, Germany
Daniel L Stephens Jr., Pacific Northwest Nat. Lab., United States
Roberto Stroili, INFN Padova, Italy
Benjamin W Sturm, Lawrence Berkeley National Lab, United States
Takayuki Sumiyoshi, Tokyo Metropolitan University, Japan
Suleman Surti, University of Pennsylvania, United States
Tsuyoshi Suwada, KEK, Japan
Lukasz Swiderski, National Centre for Nuclear Research, Poland
Acknowledgment 317
Tomasz Szczesniak, National Centre for Nuclear Research, A.
Soltana 7, PL 05-400 Otwock-Swierk, Poland, Poland
Jolanta Sztuk-Dambietz, European XFEL GmbH, Germany
Hiroyasu Tajima, Solar-Terrestrial Environment Laboratory,
Nagoya University, Japan
Hiroyuki Takahashi, Department of Nuclear Engineering and
Management, The University of Tokyo, Japan
Hui Tan, XIA LLC, United States
Manobu Tanaka, KEK IPNS, Japan
Fukun Tang, University of Chicago, United States
Stefaan P Tavernier, Vrije Universiteit Brussel, Belgium
Maxim P. Titov, CEA Saclay, IRFU/SPP, France
Makoto Tobiyama, KEK, High Energy Accelerator Research
Organization, Japan
Francois Touchard, Aix-Marseille University & CPPM/CNRS/IN2P3,
France
Gerard Tranquille, CERN, Switzerland
Gianluca Traversi, University of Bergamo, Italy
Monica Turcato, European XFEL GmbH, Germany
Michela C.A. Uslenghi, INAF/Iasf-Milano, Italy
Jiri Vacik, Nuclear Physics Institute, Academy of Sciences of the
Czech Republic, Czech Republic
John Valentine, Lawrence Berkeley National Lab., United States
Vladivoj Valkovic, A.C.T.d.o.o., Croatia
Erik Vallazza, INFN , Sezione di Trieste, Italy
Richard Van Berg, University of Pennsylvania, United States
Harry van der Graaf, Nikhef, Netherlands
Arne Vandenbroucke, Stanford University, United States
Marie Vanstalle, GSI Helmholtz Centre for Heavy Ion Research,
Germany
Gary Varner, Univ. of Hawaii, United States
Paul Vaska, Brookhaven National Laboratory, United States
Rob Veenhof, RD51 and Uluda? university, Switzerland
Jaap Velthuis, Bristol University, United Kingdom
Ludo Vermeeren, SCK-CEN, Belgium, Belgium
Sergey Vinogradov, Lebedev Physical Institute of the Russian
Wolfgang Waltenberger, Hephy Vienna, Austria
Ke Wang, Institute of High Energy Physics, Chinese Academy of
Sciences, China
Kenichi Watanabe, Nagoya University, Division of Quantum
Science and Energy Engineering, Japan
Charles C Watson, Siemens Medical Solutions Molecular Imaging,
United States
Gordon T. Watts, University of Washington, United States
Marc M Weber, Karlsruhe Institute of Technology, Germany
Georg Weidenspointner, HLL MPG, Germany
Irving N Weinberg, Weinberg Medical Physics, United States
Andrew G Weisenberger, Thomas Jefferson National Accelerator
Facility, United States
Kenneth D Weston, Nucsafe, Inc.., United States
Frank Wilkinson III, Alpha Spectra Inc., United States
Crispin Williams, INFN Bologna, Italy
William Wisniewski, SLAC National Accelerator Lab., United States
318 Acknowledgment Douglas Wright, Lawrence Livermore National Lab., United States
Jinyuan Wu, Fermilab, United States
Claudia-Elisabeth Wulz, Oesterreichische Akademie der
Wissenschaften, Austria
Seiichi Yamamoto, Nagoya University Graduate School of
Medicine, Japan
Takayuki Yanagida, Kyushu Institute of Technology, Japan
Kan Yang, Saint-Gobain Crystals, United States
Julia V. Yarba, Fermilab, United States
John Young, Savannah River National Laboratory, United States
Christos Zamantzas, CERN, Switzerland
Liyuan Zhang, California Institute of Technology, United States
Nan Zhang, Siemens, United States
Jingzhou ZHAO, IHEP, China
Ren-Yuan Zhu, California Institute of Technology, United States
Mariya Zhuravleva, Scintillation Materials Research Center,
University of Tennessee, United States
Sibylle Ziegler, Nuklearmedizin Klinikum rechts der Isar der TU
München, Germany
Klaus P Ziock, Oak Ridge National Laboratory, United States
MIC Assistant Chairs
Adam M Alessio, University of Washington, United States
Ramsey D Badawi, UC Davis Medical Center, United States
Nicola Belcari, Dept of Physics E. Fermi, University of Pisa, Italy
David Brasse, Institut Pluridisciplinaire Hubert Curien, France
Irène Buvat, IMNC UMR 8165 CNRS, Orsay, France
Yong Choi, Sogang University, South Korea
Woon-Seng Choong, Lawrence Berkeley Nat Lab, United States
Georges El Fakhri, Harvard Medical School and Massachusetts
General Hospital, United States
Roger R Fulton, University of Sydney, Australia
Paul K Marsden, King's College London, England, United Kingdom
Scott D Metzler, University of Pennsylvania, United States
Robert S Miyaoka, University of Washington, United States
Guillem Pratx, Stanford University, United States
Jinyi Qi, University of California, Davis, United States
Magdalena Rafecas, Instituto de Fisica Corpuscular (IFIC),
Universidad de Valencia - CSIC, Spain
Arman Rahmim, Johns Hopkins University, United States
Andrew J Reader, McGill University, Canada
Vesna Sossi, University of British Columbia, Canada
Acknowledgment 319
Katsuyuki Taguchi, Johns Hopkins University, United States
Dimitris Visvikis, LaTIM, France
Jinyuan Wu, Fermilab, United States
Medicine, Japan
Taiga Yamaya, National Institute of Radiological Sciences, Japan
MIC Reviewers
Pablo Aguiar, Fundacion Ramón Domínguez,
Complexo
Hospitalario Universitario de Santiago de Compostela, Spain
Sangtae Ahn, GE Global Research, United States
Adam M Alessio, University of Washington, United States
Pedro Arce, CIEMAT, Spain
Evren Asma, General Electric Global Research, United States
Tsukasa Aso, Nagaoka University of Technology, Japan
Ramsey D Badawi, UC Davis Medical Center, United States
Bing Bai, University of Southern California, United States
Girish Bal, Siemens Healthcare, United States
Harshali Bal, Siemens Medical Solutions - MI, United States
Brad Barber, University of Arizona, United States
William C Barber, DxRay Inc., United States
Marco Battaglia, SCIPP - UCSC and LBNL, United States
Freek J Beekman, Delft University of Technology, Netherlands
Simone Beer, Central Institute for Electronics, Forschungszentrum
Juelich, Germany
Nicola Belcari, Dept of Physics E. Fermi, University of Pisa, Italy
Bernard Bendriem, Siemens Molecular Imaging, United States
M'hamed Bentourkia, Université de Sherbrooke, Canada
Gregory A Bizarri, LBNL - Berkeley, United States
Christian Bohm, University of Stockholm, Dept of physics, Sweden
Spencer L Bowen, Massachusetts General Hospital, United States
Jovan G Brankov, Illinois Institute of Technology, United States
Aaron B Brill, Vanderbilt University, United States
Sergey A Butsyk, University of Hawaii at Manoa, United States
Irène Buvat, IMNC UMR 8165 CNRS, Orsay, France
James A Case, Cardiovascular Imaging Technologies, United States
Michael E Casey, Siemens Medical Solutions, United States
Ciprian Catana, Massachusetts General Hospital, United States
Anna M Celler, University of British Columbia, Canada
Kyle Champley, Lawrence Livermore National Lab., United States
Arion F Chatziioannou, UCLA Crump Institute, United States
Abhijit J Chaudhari, UC Davis School of Medicine, United States
Stephane Chauvie, Santa Croce e Carle Hospital, Italy
Chin-Tu Chen, The University of Chicago, United States
Ju-Chieh (Kevin) Cheng, Department of Radiology, Washington
University in St. Louis, United States
Lishui Cheng, GE Global Research, United States
Nerine Cherepy, Lawrence Livermore National Lab., United States
Simon R Cherry, University of California-Davis, United States
Garry Chinn, Stanford School of Medicine, United States
320 Acknowledgment Gabriele Chiodini, Istituto Nazionale di Fisica Nucleare - Lecce, Italy
Sanghee Cho, Siemens Molecular Imaging, United States
Woon-Seng Choong, Lawrence Berkeley Nat. Lab., United States
Cecil Chow Robilotta, University of Sao Paulo, Brazil
Se Young Chun, Ulsan National Institute of Science and Technology
(UNIST), South Korea
Yong Hyun Chung, Department of Radiological Science, Yonsei
Radovan Chytracek, R. C. Consult, Switzerland
Carlo Civinini, INFN-Firenze, Italy
Rolf Clackdoyle, Lab. Hubert Curien, CNRS, St. Etienne, France
Neal Clinthorne, University of Michigan, United States
Claude Comtat, SHFJ, CEA, France
Maurizio Conti, Siemens, United States
Alexander K Converse, Univ. of Wisconsin-Madison, United States
John A Correia, Massachusetts General Hospital/Harvard Medical
School, United States
Albert Cot, Universitat de Barcelona, Spain
Ioan Dafinei, Istituto Nazionale di Fisica Nucleare, Italy
Magnus Dahlbom, David Geffen School of Medicine at UCLA,
United States
Maurizio Dapor, Interdisciplinary Laboratory for Computational
Science, FBK, Trento, Italy
Yves D'Asseler, MEDISIP-UGent, Belgium
Margaret E. Daube-Witherspoon, University of Pennsylvania,
United States
Mohammad Dawood, University of Münster, Germany
Hugo W.A.M. de Jong, Univ. Medical Center Utrecht, Netherlands
Bruno De Man, GE Research, United States
Michel Defrise, Dept. of Nuclear Medicine, Vrije Universiteit Brussel,
Belgium
Alberto del Guerra, University Pisa, Italy
Stephen E Derenzo, Lawrence Berkeley National Lab., United States
Laurent Desbat, TIMC-IMAG, Grenoble University (UJF), France
Philippe Després, Centre Hospitalier Univ. de Québec, Canada
Yuni K Dewaraja, University of Michigan, United States
Frank P DiFilippo, Cleveland Clinic, United States
Avraham Dilmanian, State University of New York at Stony Brook,
United States
Huini Du, Toshiba Medical Research Institute USA, Inc., United
States
Yong Du, Johns Hopkins Medical Institutions, United States
John C. Engdahl, Bradley University, United States
Lars A Eriksson, Siemens Medical Solutions, Molecular Imaging,
United States
Riccardo Fantechi, INFN - Sezione di Pisa, Italy
Viviana Fanti, Dipartimento di Fisica dell'Universita' di Cagliari e
INFN sezione di Cagliari, Italy
Troy H Farncombe, Hamilton Health Sciences / McMaster
University, Canada
Jeff Fessler, University of Michigan, United States
Fine Fiedler, Helmholtz-Zentrum Dresden-Rossendorf, Germany
Carlo Fiorini, Politecnico di Milano, Italy
Acknowledgment 321
Richard Freifelder, University of Pennsylvania, Dept. of Radiology,
United States
Roger R Fulton, Westmead Hospital, Australia
Tobias Funk, Triple Ring Technologies, United States
Daniel Gagnon, Toshiba Medical Research Institute, United States
Franco Garibaldi, Istituto Superiore di Sanita' and INFN Roma, Italy
David R. Gilland, University of Florida, United States
Dimitry Ginzburg, Radiation Detection Department, Rotem
Industries Ltd, , Israel
Stephen J Glick, Univ. of Massachusetts Medical School, United
States
Andrew L Goertzen, University of Manitoba, Canada
faustino gomez, University of Santiago, Spain
Fabiana Gramegna, Laboratori Nazionali di Legnaro - I.N.F.N., Italy
Michael V Green, Molecular Imaging Program/NIH, United States
Martin Grossmann, PSI, Switzerland
Grant T Gullberg, Lawrence Berkeley National Lab., United States
Frezghi Habte, Stanford University, United States
James J Hamill, Siemens Healthcare, United States
Robert L Harrison, University of Washington, Germany
Tomoyuki Hasegawa, Allied Health Sciences, Kitasato University,
Japan
Eric S Hazen, Boston University, United States
Hans Herzog, Institute of Neuroscience and Biophysics - Medicine,
Forschungszentrum Juelich, Germany
Richard D Hichwa, University of Iowa, United States
Gabriela Hoff, Pontifical Catholic University in Rio Grande do Sul,
Brazil
Inki Hong, Siemens Medical Solutions, United States
Seong Jong Hong, Eulji University, South Korea
Jiang Hsieh, GE Healthcare, United States
Sung-Cheng (Henry) Huang, UCLA David Geffen School of
Medicine, United States
Zhifeng Huang, UCLA, United States
Jennifer S Huber, Lawrence Berkeley National Lab, United States
Ronald H Huesman, Lawrence Berkeley Lab, United States
James W Hugg, Gamma Medica, United States
Brian F Hutton, Institute of Nuclear Medicine, UCL, London, United
Kingdom
Hidehiro Iida, National Cerebral & Cardio-Vascular Center, Japan
Marijana Ivanovic, University of North Carolina, Chapel Hill, NC,
United States
Martin Janecek, Lawrence Berkeley National Lab., United States
Pierre Jarron, cern university of Torino, Switzerland
Ronald J. Jaszczak, Professor Emeritus of Radiology, Duke
University Medical Center, United States
Sungchae Jeon, Advanced medical device research center, KERI,
South Korea
Jinhun Joung, Nutec Solutions, United States
Martin S Judenhofer, University of California, Davis, United States
Marc Kachelriess, German Cancer Research Center (DKFZ),
Heidelberg, Germany, Germany
Dan J Kadrmas, University of Utah, United States
Chien-Min Kao, The University of Chicago, United States
322 Acknowledgment Anuj Kapadia, Dept of Radiology, Medical Physics Graduate
Program, Duke University, United States
Nikolaos Karakatsanis, Postdoctoral Fellow, Johns Hopkins Medical
Institutions, United States
Joel S Karp, University of Pennsylvania, United States
Brad J Kemp, Mayo Clinic, United States
Marie Foley Kijewski, Brigham and Women's Hospital and Harvard
Hee-Joung KIM, Yonsei University, South Korea
Ho Kyung Kim, Pusan National University, South Korea
Kyeong Min Kim, Korea Institute of Radiological and Medical
Sciences, South Korea
Yong-Kyun Kim, Hanyang University, South Korea
Paul E Kinahan, University of Washington, United States
Michael A King, Univ of Mass Med School, United States
Nikolay Vladimir Klassen, Institute of Solid State Physics, Russian
George Kontaxakis, Universidad Politécnica de Madrid, Spain
Hiroyuki Kudo, University of Tsukuba, Japan
Patrick Jean La Riviere, Dept. of Radiology, The University of
Chicago, United States
Richard Laforest, Washington University, School of Medicine,
United States
Ernesto Lamanna, Magna Graecia University Cz & INFN Gruppo
Collegato Cs, Italy
Carole Lartizien, CREATIS- CNRS UMR5220, France
Roger Lecomte, Université de Sherbrooke, Canada
Kisung Lee, Korea University, United States
Soo-Jin Lee, Paichai University, Dept. of Electronic Engineering,
South Korea
Taek-Soo Lee, Johns Hopkins University, United States
Michael L.F. Lerch, University of Wollongong, Australia
Tom K Lewellen, University of Washington, United States
Lihong C Li, City University of New York, United States
Jerome Z Liang, Stony Brook University, United States
Michael Ljungberg, Medical Radiation Physics, Lund University,
Sweden
Martin Lodge, Johns Hopkins, United States
Lawrence R MacDonald, University of Washington, United States
Mark T Madsen, University of Iowa, United States
Alexander B Mann, Technische Universität München, Germany
Paul K Marsden, King's College London, England, United Kingdom
Samuel Matej, University of Pennsylvania, United States
Giovanni Mazza, INFN sez. di Torino, Italy
Steven R Meikle, University of Sydney, Australia
Chuck Melcher, University of Tennessee, United States
Scott D Metzler, University of Pennsylvania, United States
Satoshi Mihara, KEK, Japan
Gregory S Mitchell, UC Davis, United States
Acknowledgment 323
Joyeeta Mitra, University of Massachusetts, United States
Robert S Miyaoka, University of Washington, United States
Stephen C Moore, Brigham & Women's Hospital, United States
Christian Morel, CPPM, Aix-Marseille II University, France
William W. Moses, Lawrence Berkeley National Lab., United States
Marek Moszynski, National Centre for Nuclear Reserarch, Poland
Klaus Mueller, Computer Science, Stony Brook University, United
States
Hideo Murayama, National Institute of Radiological Sciences,
Japan
Raymond F Muzic, Jr., Case Western Reserve University, United
States
Vivek V Nagarkar, RMD, Inc., United States
Filippo Nava, Dip. di Fisica Univ. di Modena e Reggio Emilia, Italy
Francesca Nessi-Tedaldi, ETH Zurich, Switzerland
Martin Nikl, Institute of Physics of Academy of Sciences of the Czech
Republic, Czech Republic
Johan LJ Nuyts, KU Leuven, Belgium
Jonathon A Nye, Emory University, United States
Michael K O'Connor, Mayo Clinic, United States
Koichi Ogawa, Graduate School of Engineering, Hosei University,
Japan
Graeme J O'Keefe, Centre for PET, Austin Health, Australia
Peter D Olcott, Stanford University, United States
Eraldo Oliveri, CERN, Switzerland
Arne M Paans, University Medical Center Groningen, Netherlands
Roberto Pani, Sapienza University of Rome, Italy
Vladimir Y Panin, Siemens Healthcare, United States
Marco Petasecca, Centre for Medical Radiation Physics - University
of Wollongong, Australia
Todd E Peterson, Vanderbilt University, United States
Ashot Petrosyan, Institute for Physical Research, National Academy
of Science of Armenia, Armenia
Uwe K Pietrzyk, Institute of Neuroscience and Medicine - FZ Juelich,
Germany
Vlladimir Popov, Thomas Jefferson National Accelerator Facility,
United States
Guillem Pratx, Stanford University, United States
Michela Prest, universita` dell'Insubria e INFN Milano Bicocca, Italy
P. Hendrik Pretorius, University of Massachusetts Medical School,
United States
Jinyi Qi, University of California, Davis, United States
Hua Qian, GE Global Research, United States
Magdalena Rafecas, Instituto de Fisica Corpuscular (IFIC),
Universidad de Valencia - CSIC, Spain
Arman Rahmim, Johns Hopkins University, United States
Francisco Javier Ramírez-Jiménez, Instituto Nacional de
Investigaciones Nucleares, Mexico
Lodovico Ratti, University of Pavia, Italy
Raymond Raylman, Dept of Radiology/West Virginia University,
United States
Andrew J Reader, McGill University, Canada
Janet S Reddin, Univ. of Pennsylvania, United States
Angelo Rivetti, INFN - Sezione di Torino, Italy
324 Acknowledgment Pedro Rodrigues, Philips Research Europe, Netherlands
Emilie Roncali, University of California-Davis, United States
Steven G Ross, GE Healthcare, United States
Gary J Royle, University College London, United Kingdom
Xue Rui, General Electric - Global Research, United States
Paolo Russo, Universita' di Napoli Federico II and INFN Napoli, Italy
Hartmut F.-W. Sadrozinski, Santa Cruz Institute for Particle Physics,
Univ. of California Santa Cruz, United States
Denison Souza Santos, Instituto de Radioproteção e Dosimetria,
Brazil
Takashi Sasaki, KEK, Japan
Christiaan Schiepers, David Geffen School of Medicine at UCLA,
United States
Matthias Schmand, Siemens Healthcare MI, United States
Nils U Schramm, Research Center Juelich, Germany
Volkmar Schulz, RWTH Aachen University / Philips Research Europe
- Aachen, Germany
Hee Seo, Korea Atomic Energy Research Institute, South Korea
Georgy Shakirin, Philips Research, Netherlands
Lingxiong Shao, Philips Medical Systems, United States
Yiping Shao, The University of Texas M.D. Anderson Cancer Center,
United States
Michael D Silver, TMRU, United States
Arkadiusz Sitek, Massachusetts General Hospital and Harvard
Mark F Smith, University of Maryland School of Medicine, United
States
Edward J Soares, Holy Cross College, United States
Vesna Sossi, University of British Columbia, Canada
Sara St. James, Brigham and Women's Hospital, United States
Charles W Stearns, GE Healthcare, United States
Sven-Erik Strand, Lund University, Sweden, Sweden
Tomasz Szczesniak, National Centre for Nuclear Research, Poland
Katsuyuki Taguchi, Johns Hopkins University, United States
Yuan-Chuan Tai, Washington University in St. Louis, United States
Jing Tang, Oakland University, United States
Richard Taschereau, University of California Los Angeles, United
States
Stefaan P Tavernier, Vrije Universiteit Brussel, Belgium
Kris Thielemans, University College London, United Kingdom
Christopher J Thompson, Montreal Neurological Institute (now
retired), Canada
David W Townsend, Clinical Imaging Research Centre, Singapore,
Singapore
Gianluca Traversi, University of Bergamo, Italy
Andreia M A Trindade, Philips Research, Netherlands
Benjamin M. W. Tsui, Johns Hopkins University, United States
Timothy G. Turkington, Duke University Medical Center, United
States
Stefaan Vandenberghe, Ghent University, Belgium
Arne Vandenbroucke, Stanford University, United States
Acknowledgment 325
Paul Vaska, Brookhaven National Laboratory, United States
Dimitris Visvikis, INSERM UMR1101, France
Matthew D Walker, University of British Columbia, Canada
Guobao Wang, University of California, Davis, United States
Jing Wang, UT Southwestern Medical Center, United States
Yuchuan Wang, Johns Hopkins Medical Institutions, United States
Hiroshi Watabe, Tohoku University, Japan
Charles C Watson, Siemens Medical Solutions Molecular Imaging,
United States
Irving N Weinberg, Weinberg Medical Physics, United States
Andrew G Weisenberger, Thomas Jefferson National Accelerator
Facility, United States
Andy Welch, University of Aberdeen, United Kingdom
Kevin Wells, University of Surrey, United Kingdom
R.Glenn Wells, University of Ottawa Heart Institute, Canada
Frank Wilkinson III, Alpha Spectra Inc., United States
Crispin Williams, INFN Bologna, Italy
Yibao Wu, Prescient Imaging, United States
Jingyan Xu, Johns Hopkins University, United States
Medicine, Japan
Taiga Yamaya, National Institute of Radiological Sciences, Japan
Takayuki Yanagida, Kyushu Institute of Technology, Japan
Yongfeng Yang, University of California at Davis, United States
Rutao Yao, State University of New York at Buffalo, United States
Jeffrey T Yap, Dana-Farber Cancer Institute, United States
Eiji Yoshida, National Institute of Radiological Sciences, Japan
Gengsheng Lawrence Zeng, University of Utah, United States
Bin Zhang, Philips Medical Systems, United States
Jian Zhou, University of California, Davis, United States
Sibylle Ziegler, Nuklearmedizin Klinikum rechts der Isar der TU
München, Germany
George Zubal, Institute for NeuroDegenerative Disorders, United
States
326 Acknowledgment RTSD Steering Committee
Toru Aoki, Shizuoka, University, Japan
David Beach, DOE/NNSA DNN R&D, USA
Giuseppe Bertuccio, Politechnico di Milano, Italy
Aleksey Bolotnikov, Brookhaven National Laboratory
Arnold Burger, Fisk University, USA
Anna Cavallini, University of Bologna, Italy
Henry Chen, Redlen, Canada
Ernesto Dieguez, Universidad Autonoma de Madrid, Spain
Martine Duff, Savannah River Nuclear Solutions, USA
Michael Fiederle, FMF Albert-Ludwigs-Universitaet, Germany
Petro Fochuk, Chernivtsi National University, Ukraine
Laura Fornaro, University of Uruguay, Uruguay
Jan Franc, Charles University, Czech Republic
Larry Franks, Consultant, USA
Zhong He, University of Michigan, USA
Jang Ho Ha, Korea Atomic Energy Research Institute, South Korea
Jan Iwanczyk, DxRay, Inc., USA
Ralph James, Brookhaven National Laboratory, USA
Hee-Joung Kim, Yonsei University, South Korea
Patty Lee, Brookhaven National Laboratory, USA
Kelvin Lynn, Washington State University, USA
Krishna Mandal, University of South Carolina, USA
Douglas McGregor, Kansas State University, USA
Robert McLaren, McLaren Enterprises, USA
Shari Motakef , CapeSim, USA
Andrzej Mycielski, Academy of Science Warsaw, Poland
Eugenio Perillo, University of Napoli, Italy
Ian Radley, Kromek, UK
Paul Sellin, University of Surrey, UK
Kanai Shah, RMD, USA
Paul Siffert, Eurorad SA, France
Rick Smith, eV Products, USA
Csaba Szeles, Nious Technologies, USA
Loick Verger, CEA LETI-MINATEC, France
Andrea Zappettini, IMEM-CNR, Italy
Conference Information and Promotion
(CIP) Committee
Rachel Avramidou, CERN, Switzerland
Melanie Bergeron, Université de Sherbrooke, Canada
Christian Bohm, Stockholm University, Sweden
Uwe Bratzler, CERN & TMU, Switzerland
Johana Chirinos, Michigan Tech University, USA
Audrey Corbeil Therrien, Université de Sherbrooke, Canada
Serge Duarte Pinto , CERN, Switzerland
Ralf Engels, Forschungszentrum Jülich GmbH / ZEA-2, Germany
Christer Fröjdh, Mid Sweden University, Sweden
Chikara Fukunaga, Tokyo Metropolitan University, Japan
Ana Ros Garcia, I3M Universitat Politecnica de Valencia, Spain
Evangelos Gazis, National Technical University of Athens, Greece
Carlos Granja, IEAP CTU Prague, Czech Republic
Ingrid-Maria Gregor, DESY , Germany
Daniel Haas, University of Geneva / DPNC, Switzerland
Acknowledgment 327
Erik Heijne, CERN, Switzerland
Gabriela Hoff, Catholic University in Rio Grande do Sul, Brazil
Christoph Ilgner, Helmholtz-Zentrum Dresden-Rossendorf, Institut
fuer Strahlenphysik, Germany
Merry Keyser, Software & Information Services, Inc., USA
Srilalan Krishnamoorthy, University of Pennsylvania, USA
Susanne Kuehn, Albert-Ludwigs Universität Freiburg, Germany
Edward Lampo, UC Berkeley Lab (retired), USA
Patrick Le Du, IN2P3, France
Min Sun Lee, Seoul National University, South Korea
Dariusz Makowski, Technical University of Lodz, Poland
Geisa Mederios, Fundacao St. Pastous de Technologia, Brazil
Dora Merelli, CEA Saclay, France
Raquel Munoz, CIEMAT, Spain
Uwe Pietrzyk, Forschungszentrum Jülich, Germany
Natalia Potylitsina-Kube, DESY, Germany
Jean-François Pratte, Université de Sherbrooke, Canada
Francisco Ramírez-Jiménez, Instituto Nacional de Investigaciones
Nucleares, Mexico
Anatoly Rozenfeld, University of Wollongong , Australia
Judy Sanders, Lawrence Livermore National Lab. (retired) , USA
Christina Sanders, U.S. Department of Health and Human Services
Youngho Seo, University of California, San Francisco, USA
Andre Sopczak, IEAP, Czech Technical University, Czech Republic
Agnieszka Syntfeld-Kazuch, Soltan Institute for Nuclear Studies,
Poland
Maxim Titov, CEA Saclay, France
Martin Tornai, Duke University, USA
Arne Vandenbroucke, Stanford University, USA
Bo Yu, Brookhaven National Laboratory, USA
328 Acknowledgment Contact Information
General Chair
Hee-Joung Kim
[email protected]
NSS Program Chair
Gyuseong Cho
[email protected]
MIC Program Chair
Jae Sung Lee
[email protected]
RTSD Program Co-Chair
Jang Ho Ha
[email protected]
NSS Workshop Chair
Anatoly Rozenfeld
[email protected]
Ho Kyung Kim
[email protected]
Mi Young Kim
[email protected]
Short Course Co-Chair
Paul Lecoq
[email protected]
Short Course
Acting Co-Chair
Chul Hee Min
[email protected]
Treasurer
Kisung Lee
[email protected]
Deputy General Chair
Steve Meikle
[email protected]
NSS Deputy Program Chair
Ikuo Kanno
[email protected]
MIC Deputy Program Chair
Craig Levin
[email protected]
RTSD Program Co-Chair
Ralph James
[email protected]
MIC Workshop Chair
Benjamin MW Tsui
[email protected]
Ronald M. Keyser
[email protected]
Merry Keyser
[email protected]
Short Course Co-Chair
Chan Hyeong Kim
[email protected]
Conference Organizing Chair
Yong Hyun Chung
[email protected]
Co-Treasurer
Tom Lewellen
[email protected]
Contact Information 329
Guest Editor
Yong Choi
[email protected]
Scholarship/donations
Co-Chair
Soo-Jin Lee
[email protected]
Registration/Accommodation
Co-Chair
Christina Sanders
[email protected]
Publicity/Press Chair
Seungryong Cho
[email protected]
Scholarship/donations
Co-Chair
Jinhun Joung
[email protected]
Registration/Accommodation
Co-Chair
Kyeong Min Kim
[email protected]
Local Arrangements
Co-Chair
Local Arrangements
Co-Chair
Ralf Engels
[email protected]
Seong Jong Hong
[email protected]
Conference Promotion
Co-Chair
Hong Joo Kim
[email protected]
Asia-Pacific Liason Co-Chair
Taiga Yamaya
[email protected]
ZhenAn Liu
[email protected]
IT Chair
Wonho Lee
[email protected]
330 Contact Information Conference Promotion
Co-Chair
Youngho Seo
[email protected]
Jianmin Li
[email protected]
Conference Webmaster
Bo Yu
[email protected]
Contact Information 331
Sat. Oct 26
Hall E2
08:30-10:00
10:30-12:00
13:30-15:00
08:30-17:00
SC1 - Radiation
Detection and
Measurement
15:30-17:00
Sun. Oct 27
Hall E2
ASEM203 A&B
08:30-17:00
SC1 - Radiation
Detection
and Measurement
08:30-17:00
NWK4 - Towards a 10
ps Single Soft Photon
Detector
08:30-10:00
10:30-12:00
13:30-15:00
15:30-17:00
ASEM 208 A&B
8:00- 13:00
NWK2 - Detectors in
Radiation Therapy...
13:30-19:00
NWK3 - New Detector
Technologies ...
Mon. Oct 28
Hall E1&E2
08:00-10:00
R01: Spectrometer
Systems for Homeland
Security
ASEM 208 A&B
NP1: NSS
10:30-12:30
R02: CdZnTe I
NP2: NSS
GBR 1
12:30-14:00
13:30-17:30
MWK3 - Fundamentals
and Applications of
Photon-Counting X-ray
Detectors
14:00-16:00
R03: CdTe
16:30-18:30
R04: TlBr and BiI3
Tue. Oct. 29
Hall E1&E2
ASEM203 A&B
GBR 1
R06: CdZnTe and CdTe:
Medical Applications 1
N15: Instr. for Homeland
Sec. I: Passive Detection
J1: NSSSess
08:00-10:00
10:30-12:30
12:30-14:00
14:00-16:00
15:30-16:00
R07: Si Detectors
J2: NSSSess
N18: Computing
Challenges
16:30-18:30
J3: NSS-MIC
Ses
19:00-21:00
Wed. Oct 30
Hall E1&E2
ASEM203 A&B
ASEM208 A&B
08:00-10:00
10:30-12:30
R09: CdZnTe II
N21: Digitalization and
Signal Processing
Solid-State Detectors I
M01: MIC O
Plen
Security II: Imaging and
Algorithms
N26: Nuclear Instr.: New
Detection and
Electronics Concepts
M02: MIC A
Plen
N29: Simulation
N30: Synchrotron
Radiation and FEL
Instrumentation I
12:30-14:00
14:00-16:00
R10: RTSD Scientist
Award and CdZnTe III
16:30-18:30
J4: NSS-RTSD Joint
Session
19:00-21:00
GBR 1
MIC RC1 : ..
puted To
07:00-08:00
102-104
Conference Weekly Overview (1/2)
GBR 1 01
GBR 102
GBR 104
GBR 105
N1: Astrophysics and
Space Instrumentation I
N2: Gaseous Detectors I
: Recent Developments
N3: X-ray/Neutron
Imaging
N4: Scintillator
Properties
Instrumenation I
N6: HEP Computing
N7: Neutron Detection I :
Detectors
N8: Photodetectors I
S Plenary I
S Plenary II
102-104
-MIC Joint
sion I
GBR 101
GBR 102
GBR 104
GBR 105
Space Instrumentation II
N10: Gaseous Detectors
II: Time Does It for You
N11: Compton Imaging
N12: Crystal Production
Methods
N13: High Energy Physics Instr. II
N14: Pixel Circuits
N16: Nuclear Instrumentation: Large Systems
N17: Front End Digitizers and Read Out Comp
-MIC Joint
sion II
C-RTSD Joint
ssion
102-104
GBR 101
GBR 101-102
GBR 104
GBR 105
.. X-ray Comomography
Opening and
nary I
N19: Instr. for BioMedical Research
N20: Plastic and Liquid
Scintillators
Awards and
nary II
N23: Neutron Detection
II : Systems
N24: Photodetectors II
NSS RC1: Geant4
Physics Validation
M03: PET
Instrumentation
M04: Image
Reconstruction I
N27: Accelerator
Technology
N28: Environmental
Radiation Monitors and
Dosimeters
Hall E3
ASEM 201
Hall E4
08:30-17:00
SC2 - Integrated Circuits
for Time and Amplitude
Measurement of
Nuclear Radiation Pulses
08:30-17:00
SC3 - Experimental
Techniques in Nuclear
and Particle Physics
Hall E3
Hall E4
15:30-18:30
Registration
08:30-17:00
SC4 - Geant4 Simulation
Toolkit
ASEM 201
Hall E3
Hall E4
Hall E5&E6
Lobby
08:30-17:00
SC6 - Physics and
Design of Detectors
for SPECT and PET
08:30-17:00
NSS Luncheon
07:30-18:30
Registration
Hall B2 (posters)
Hall B2
Hall E5
Lobby
8:30-12:30
MWK1 - Quantitative
Four-Dimensional
Image Reconstruction
Methods
08:30-17:00
SC5 - Medical Image
Reconstruction
15:30-18:30
Registration
13:30-17:30
MWK2 - PET-MR and
SPECT-MR
Fradia Restaurant
R05: RTSD Poster I
07:30-18:30
Registration
12:30-14:30
RTSD Luncheon
NPO1: NSS Poster I
12:00-19:00
p.
13:30-18:00
Exhibitor
Technical
Sessions
Exhibitor Reception
Hall B2 (posters)
Hall B2
R08: RTSD Poster II
Hall E5
07:30-18:30
Registration
09:00-18:00
NPO2: NSS Poster II
Lobby
08:00-12:30
Exhibitor
Technical
Sessions
I
d
Lobby
07:30-09:30
Registration
8:00- 16:30
NWK1 - New Technologies in Hadron Therapy:
Particle Imaging and
Optimization of Treatment Delivery
n
d
Lobby
07:30-09:30
Registration
13:30-18:00
Exhibitor
Technical
Sessions
Conference Reception
Thu. Oct 31
Hall E1&E2
ASEM203 A&B
ASEM208 A&B
GBR
MIC RC2:Fu
and Recen
of
07:00-08:00
08:00-10:00
R11: Alternative Semiconductor Materials and
Detectors
N33: DAQ Systems
Solid-State Detectors II
M06: Simu
Modelin
Kin
10:30-12:30
R12: Imaging
Applications
Security III: Active
Interrogation
N38: Nucl. Instr. III: Imaging, Fission, Monitoring
and Security
M08: Signa
Proce
14:00-16:00
Alloys
N41: Radiation Damage
Effects and Radiation
Hard Devices
N42: Instr. for
Experimental Reactors
and Nuclear Power
M10: Data
and Qua
Imag
16:30-18:30
R14: Neutron Detectors
N45: Software in Action
N46: Synchrotron
Radiation and FEL
Instrumentation II
12:30-14:00
ASEM 201
18:30-19-30
OpenPET Users Group
Meeting
19:00-21:00
Fri. Nov 1
Hall E1&E2
GBR
MIC RC3: Ba
tillation and
Dete
07:00-08:00
08:00-10:00
M15:
Reconst
10:30-12:30
12:30-14:00
MIC RC4:
for new A
Refer
14:00-16:00
M20: Oth
Techno
16:30-18:30
19:00-21:00
Sat. Nov 2
GBR
07:00-08:00
MIC RC5: Fu
of Statistic
Recons
08:00-10:00
M24: Data
and Qua
Imag
10:30-12:30
M25: High
and Pre-Clin
Instrum
Sun. Nov 3
ASEM203 A&B
08:00-18:00
Molecular Imaging
R 103
Conference Weekly Overview (2/2)
Hall E4
GBR 101-102
GBR 104
GBR 105
ulation and
ng / Tracer
netics
M05: Multi-Modality
Systems / Other Imaging Technologies I
Space Instrumentation III
N32: HEP Applications of Scintillation
Detectors
al and Image
essing
M07: Imaging in Radiotherapy
N35: High Energy Physics Instrumenation III
N36: Non HEP Scintillator-based Detectors
undamentals
nt Advances
MRI
M09: Front End and
Data Acquisition
Electronics /
Intra-Operative Imaging
Corrections
antitative
ging I
R 103
GOLD Reception
GBR 101-102
M14: New Detector Materials and Technologies
/ SPECT Instrumentation
Workshop
Authors and
rees ...
her Imaging
ologies II
R 103
undamentals
cal Imaging
struction
Corrections
antitative
ging II
h Resolution
nical Imaging
mentationI
N39: Neutron Detection
III : Applications
N40: TDCS and Other
Circuits
N43: HEP and NP
Imaging
N44: Trigger Systems
STIR Users Meeting
asics of Scind Solid-state
ectors
Image
truction II
NSS RC2: Calorimetry fo
Particle Physics
and Medical Imaging
GATE Users Meeting
M19: Student
Competition
Hall E3
Hall B2 (posters)
Hall B2
Hall E5
Lobby
08:00-12:30
Exhibitor
Technical
Sessions
09:00-16:00
or
SimSET and ASIM
Users Meeting
07:30-17:00
Registration
M11 - M12 - M13
WIE Session
Hall B2 (posters)
Harmony Ballroom
Lobby
07:30-12:00
Registration
M16 - M17 - M18
M21 - M22 - M23
MIC Dinner
Lobby
07:30-09:00
Registration
Seattle 2014 IEEE NSS/MIC
Dear Colleagues,
The NSS/MIC is a well-established meeting that has continuously
provided an exceptional venue to showcase outstanding developments
and contributions across the nuclear and medical instrumentation
fields. This conference brings together engineers and scientists from
around the world to share their knowledge and to gain insight and
inspiration from others. I am committed to creating the best possible
environment for this scientific exchange. Even recognizing the
successful history of the conference that spans over sixty years, we
cannot be complacent and must strive to improve; therefore it’s time for
some changes. We have carefully evaluated the feedback that we have
received over the last few years and have restructured the conference
to better suit the needs of attendees. Extensive efforts have been made
to ensure that the NSS, MIC, and RTSD oral presentation programs
are well coordinated, including a full day of non-overlapping sessions
specifically devoted to topics of mutual interest. In addition, a more
extensive paper submission review process is in place to elevate the
uniqueness and relevance of acceptance criteria, avoid duplication,
and ensure that no sector goes unrepresented. With respect to posters,
presentations will be grouped and optimized to distribute topics
across multiple sessions and all posters will be available for viewing
for the entire conference, 24 hours per day.
The conference will include a distinguished series of short courses,
relevant refresher courses, and workshops that will address areas
of particular interest. In addition, the companion program has
been redesigned to provide an exceptional set of tours that include
experiences not generally available to the public. An attendee lounge,
available 24 hours per day and co-located with the posters and
exhibits, will provide a quiet and comfortable space for attendees to
meet or work.
We are making extensive efforts to transition to a paperless event.
As such, I am, to the extent possible, eliminating essentially all
hardcopy conference publications. In addition, the conference venue
is committed to providing a “green” environment and will minimize
or eliminate the generation of any waste material.
Seattle is a beautiful location with endless opportunities for dining and
entertainment, much within easy walking distance of the convention
center. I know that I speak for the entire organizing committee when
I say that we look forward to your contributions and participation in
the 2014 NSS/MIC in Seattle from 8 - 15 November.
Anthony Lavietes, General Chair
[email protected]
R. Keyser, ORTEC - AMETEK, 801 South Illinois Avenue, Oak Ridge, TN 37830 USA
Return Address:
The Institute of Electrical and Electronics Engineers

Program Booklet

Transcription

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