STD6 CONTRIBUTION LIST
Author |
||||||
Contribution |
Session |
Last Name |
First Name |
Institution |
Affiliation
|
Title |
1 |
6 |
Lipton |
Ron |
Fermilab |
D0 |
Design and Performance of the Layer 0 Detector for D0 |
2 |
5 |
Lipton |
Ron |
Fermilab |
ILC |
3D Integration of Detectors and Electronics |
3 |
4 |
Harkonen |
Jaakko |
Helsinki Inst./CERN |
Cz-Si |
Czochralski silicon as detector material |
4 |
5 |
Klingenberg |
Reiner |
INFN-Milano |
ATLAS Pixel Detectors |
The ATLAS Pixel Detector Overview and Present Status |
5 |
P |
Ohyama |
Hiroshi |
Hiroshima Nat'l College of Maritime Tech. |
sensors |
Development of a two-dimensional readout micro-strip sensor with single-sided silicon processes |
6 |
9 |
Bebek |
Chris |
LBNL |
SNAP |
Space and Astrophysics Applications |
7 |
8 |
Ezoe |
Yuichiro |
ISAS/JAXA |
MEMS optics |
Silicon Micro-pore X-ray Optics |
8 |
8 |
Weber |
Marc |
RAL |
SSD for sLHC (?) |
Serial powering of ATLAS silicon strip sensors |
9 |
5 |
Velthuis |
Jaap |
Physikalisches Institut/Bonn |
ILC-DEPFET |
DEPFET, a monolithic active pixel sensor for the ILC |
10 |
6 |
Giubellino |
Paolo |
INFN Torino |
ALICE |
The ALICE Inner Tracking System |
11 |
10 |
Denes |
Peter |
LBNL |
APS |
High-DQE Active Pixel Sensors for Electron Microscopy |
12 |
6 |
Stanic |
Samo |
Univ. of Nova Gorica |
Belle - SVD |
Status of the Belle Silicon Vertex Detector and its Development for Operation at a Super B-Factory |
13 |
P |
Stanic |
Samo |
Univ. of Nova Gorica |
Belle - Pixel |
Development of Monolithic Active Pixel Sensors for Belle Vertex Detector Upgrade |
14 |
6 |
Klein |
Katja |
Physikalisches Institut B, RWTH Aachen |
CMS |
Lessons learned during CMS Tracker End Cap Construction |
15 |
7 |
Hou |
Suen |
FNAL |
ATLAS SCT |
Radiation hardness studies of VCSELs and PINs for the opto-links of the Atlas SemiConductor Tracker |
16 |
P |
Park |
Hwanbae |
Kyungpook National University |
ILC |
Development and Test of Silicon Strip Detector for International Linear Collider |
17 |
9 |
Stover |
Richard |
UCO/Lick |
CCDs |
Lawrence Berkeley National Laboratory High-Resistivity CCDs in Ground Based Astronomy |
18 |
6 |
Parzefall |
Uli |
University of Freiburg, Germany |
ATLAS SCT |
The ATLAS SCT |
19 |
P |
Palviainen |
Tanja |
LUT |
CMS |
Characterization of n-on-p detectors with different p-stop and p-spray structures by simulations and measurements |
20 |
10 |
Vacchi |
Andrea |
INFN-Trieste |
SDD-ALICE |
Silicon Drift Detectors for Alice |
21 |
P |
Bruzzi |
Mara |
INFN - Firenze |
Cz-Si |
Charge collection measurements of proton irradiated Magnetic Czochralski n-on-p silicon detectors |
22 |
P |
Henderson |
Ian |
SCIPP |
SSD |
Gamma Irradiation of sLHC Prototype Silicon Strip Detectors and Test Structures of the SMART Collaboration |
23 |
P |
Petterson |
Maureen |
SCIPP |
Radiography |
Reconstruction of Proton Radiography Images |
24 |
5 |
Ikeda |
Hirokazu |
Institute of space and astronautical science |
SOI |
Deep-submicron FD-SOI for front-end application |
25 |
7 |
van Beuzekom |
M. |
NIKHEF |
LHCb-VELO |
The LHCb vertex locator: present and future |
26 |
4 |
Pellegrini |
Giulio |
Instituto de Microelectrónica de Barcelona |
RD50 3D |
Technology of p-type microstrip detectors with radiation hard p-spray, p-stop and moderate p-spray insulations |
27 |
P |
Lacasta |
Carlos |
Instituto de Microelectrónica de Barcelona |
RD50 3D |
Characterisation of p-type detectors for the future Super-LHC |
28 |
10 |
Weilhammer |
Peter |
Perugia/INFN, |
? |
Medical Applications of Silicon Detectors” |
29 |
6 |
Steinkamp |
Olaf |
Physik-Institut der Universitaet Zuerich |
LHCb Silicon Tracker |
Design and Production of the LHCb Silicon Tracker |
30 |
7 |
Kramberger |
Gregor |
Jozef Stefan |
sLHC |
Annealing of effective trapping times in irradiated silicon detectors |
32 |
4 |
Casse |
Gianluigi |
University of Liverpool |
sLHC tracking |
Development of Microstrip Detectors Made on P-type Silicon Substrates for Tracking at the SLHC. |
33 |
P |
Allport |
Phil |
University of Liverpool |
sLHC tracking |
Effect of Thickness on the Performances of P-type Silicon Microstrip Sensors after Hadron Irradiation. |
34 |
9 |
Miyata |
Emi |
Osaka |
CCD |
High Resolution Wide-band Photon-Counting Detector with Scintillator-Deposited Charge-Coupled Device |
35 |
6 |
Maki |
Tuula |
FNAL/Helsinki Institute of Physics |
CDF Silicon |
Status and Performance of the CDF Run II Silicon Detector |
36 |
4 |
Holland |
Steve |
LBNL |
CCD |
Fabrication of CCDs |
37 |
9 |
Tsunemi |
Hiroshi |
Osaka University |
CCD |
Development of a large format charge-coupled device (CCD) for X-ray use in near future. |
38 |
10 |
Sher |
Alexander (Sasha) |
SCIPP |
Retina (medical apps) |
Large Scale Multielectrode Recording and Stimulation of Neural Activity |
39 |
P |
Dolezal |
Zdenek |
Charles University Prague |
SiLC |
SiLC R&D: design, present status and perspectives |
40 |
5 |
Arai |
Yasuo |
KEK |
CMOS |
Monolithic Pixel Detector in a 0.15um FD-SOI Technology |
41 |
10 |
Fadeyev |
Vitaliy |
LBNL/now SCIPP |
Application |
Using Optical Metrology to Reconstruct Sound Recordings |
42 |
8 |
Haber |
Carl |
LBNL |
ATLAS Upgrade |
A Study of Large Area Integrated Silicon Tracking Elements for the LHC Luminosity Upgrade |
43 |
P |
Ullan |
Miguel |
CNM-CSIC |
ATLAS-front end |
Radiation Hardness Evaluation of SiGe Technologies for the Front-End Electronics of the ATLAS Upgrade |
44 |
7 |
Watanabe |
Shin |
ISAS/JAXA |
Compton |
Developments of Si and CdTe Semiconductor Imaging Detectors and their Application to Compton Cameras |
45 |
P |
Mikuz |
Marko |
Jožef Stefan |
ATLAS detectors |
Diamond Pad Detector Telescope for Beam Conditions and Luminosity Monitoring in ATLAS |
46 |
7 |
Dalla Betta |
Gian Franco |
INFN Trento |
detectors? |
Monolithic integration of detectors and transistors on high-resistivity silicon |
47 |
P |
Odaka |
Hirokazu |
ISAS/JAXA |
Compton |
Performance Study of Si-CdTe Semiconductor Compton Telescopes with Monte Carlo Simulation |
48 |
4 |
Piemonte |
Claudio |
ITC-IRST |
3Dsilicon detectors |
Status of the development of 3D silicon detectors at ITC-irst” |
49 |
5 |
Kleinfelder |
Stuart |
UCI |
CMOS |
Advances and Optimizations of CMOS sensors for Charged-Particle Imaging |
50 |
P |
Takeda |
Shin'Ichiro |
ISAS/JAXA |
DSSD |
Developments of Stacked Double-Sided Silicon Strip Detectors (DSSDs) with High Energy Resolution |
51 |
5 |
Worm |
Steve |
RAL |
LCFI |
LCFI Status Report: Development of the ILC Vertex Detector |
52 |
8 |
Dabrowski |
Wladyslaw (Wladek) |
AGH University of Science and Technology, |
ASICs |
Challenges and Benefits of Designing Readout ASICs in Advanced Technologies |
53 |
2 |
Schumm |
Bruce |
SCIPP |
ILC |
Why Silicon Tracking is Best (And How to Make it Better) |
54 |
8 |
Siskind |
Eric |
NYCB Real-Time Computing, Inc., |
DAQ |
DATA ACQUISITION SYSTEM ISSUES FOR LARGE EXPERIMENTS |
55 |
8 |
Miller |
Bill |
iTi |
ATLAS detectors |
Mechanical and Thermal Management for Silicon Tracker Systems |
56 |
2 |
Tyndel |
Mike |
RAL |
ATLAS SCT |
The development of the ATLAS SCT |
57 |
6 |
Civinini |
Carlo |
INFN Florence |
CMS |
The CMS Silicon Tracker |
58 |
8 |
Huffman |
Alan |
RTI Internat'l |
detectors? |
Current and Future Directions in Hybridization for Pixelated Particle Detectors |
59 |
p |
Sadrozinski |
Hartmut |
SCIPP |
ATLAS |
Charge collection measurements in single-column 3D detectors |
60 |
7 |
Hara |
Kazuhiko |
Institute of Pure and Applied Sciences, University of Tukuba, |
ATLAS |
Systematic Study of Micro-Discharge Characteristics of ATLAS Silicon Microstrip Modules |
61 |
5 |
Bortoletto |
Daniela |
purdue |
CMS detectors |
THE CMS PIXEL DETECTOR |
62 |
9 |
Bellazzini |
Ronaldo |
INFN sez.Pisa |
? |
Gas pixel detectors for X-Ray polarimetry applications |
63 |
5 |
Battaglia |
Marco |
LBL |
CMOS sensors |
Backthinning of CMOS Monolithic Active Pixel Sensors |
64 |
p |
Battaglia |
Marco |
LBL |
CMOS sensors |
Simulation of the response of CMOS Monolithic Active Pixel Sensor response for the ILC |
65 |
p |
Metcalfe |
Jessica |
SCIPP |
SiGe |
Evaluation of the Radiation Tolerance of Several Generations of SiGe Heterojunction Bipolar Transistors Under Radiation Exposure |
66 |
6 |
Partridge |
Richard |
brown |
ILC |
The SiD Silicon Tracker for the ILC |
67 |
2 |
Brau |
Jim |
u of oregon (faraday) |
ILC |
Semiconductor Tracking Detectors at the International Linear Collider |
68 |
1 |
Gilchriese |
Murdock |
LBL |
SSC detectors |
Silicon Detectors and the SSC |
69 |
8 |
Incandela |
Joe |
UCSB |
silicon detectors |
Life on the Critical Path: Constructing Silicon Detectors for High Energy Physics |
70 |
1 |
Breidenbach |
Martin |
SLAC |
ILC detectors |
Linear Collider Vertex Detectors from SLD to SiD |
71 |
10 |
Toyokawa |
Hidenori |
Japan Synchrotron Radiation Research Institute, |
detectors? |
A single photon counting pixel detector system for synchrotron radiation applications |
72 |
4 |
Takahashi |
Tad |
JAXA |
Compton |
Compton Telescope for Astrophysics |
73 |
9 |
Kahn |
Steve |
SLAC |
LSST |
The 3.2 Gpixel Camera on the Large Synoptic Survey Telescope (LSST) |
74 |
P |
Pellegrini |
Giulio |
Barcelona |
RD50 3D |
Simulation and test of 3D silicon radiation detectors |
75 |
P |
Parkes |
Chris |
Glasgow |
LHCb VELO |
LHCb Upgrade |
76 |
1 |
Grancagnolo |
Francesco |
Lecce |
Mk3/SuperBabar |
From Mark3 to Super Babar |
78 |
8 |
Nickerson |
Richard |
Oxford |
ATLAS SCT |
ATLAS SCT Real-Time Alignment & Initial Survey |
79 |
P |
Groom |
Don |
LBNL |
CCDs |
Quantum efficiency, reflectivity, and point-spread function characterization of LBNL CCD's |
81 |
6 |
Clark |
Allan |
CERN |
SCT |
Commissioning of the ATLAS SCT |
82 |
4 |
Richter |
Rainer |
Werner-Heisenberg-Institut/Max-Planck-Institut fur Physik |
detectors |
Semiconductor device simulation of silicon radiation detectors |
83 |
7 |
Kagan |
Harris |
Ohio State University |
detectors |
Diamond Tracking Detectors |
84 |
4 |
DaVia |
Cinzia |
INFN |
3D |
3D active edge silicon sensor test results. |
85 |
7 |
Li |
Zheng |
BNL |
Cryogenic SSD |
Cryogenic Si detectors for Ultra Radiation Hardness in SLHC Environment |
86 |
1 |
Cahn |
Robert |
LBNL |
BABAR silicon |
The Importance of the Silicon Tracker to the BaBar Physics Program |
87 |
2 |
Allport |
Phil |
University of Liverpool |
LHC |
no title |
88 |
1 |
Spieler |
Helmuth |
LBNL |
silicon detectors |
Silicon Tracking Detectors and Electronics – How We Got Here and Where We’re Going |
89 |
2 |
Gordon |
Howard |
BNL |
ATLAS |
The ATLAS Experiment Looks Forward to Physics |
90 |
10 |
Battiston |
Roberto |
INFN |
MEMS |
Advanced silicon technologies for particle physics and astrophysics: the INFN/PAT MEMS project |
91 |
9 |
Johnson |
Robert |
SCIPP |
Space detectors |
Overview |
92 |
7 |
Bruzzi |
Mara |
INFN |
sLHC detectors |
Development of ultra-radiation-hard tracking detectors for SuperLHC |
93 |
4 |
Creanza |
Donato |
INFN |
SMART |
SMART Detector Project: recent results from the SMART experiment |
94 |
10 |
Gruner |
Sol |
Cornell |
Pixel Detectors |
Analog Pixel Array Detectors for Time-Resolved X-ray Applications |
95 |
2 |
Michelson |
Peter |
Kavli |
GLAST |
Future Detectors for Astrophysics: Some valuable lessons learned from GLAST |
96 |
6 |
Unno |
Yoshinobu |
KEK |
microstrip detectors |
Overview of silicon microstrip detectors |
97 |
4 |
Terada |
Susumu |
KEK |
p-type sensors |
P-type sensor development and irradiation |
98 |
P |
Ikegami |
Yoichi |
KEK |
OKI SOI |
OKI SOI technology evaluation |
99 |
P |
Kohriki |
Takashi |
KEK |
LHC Hybrids |
Hybrid and module from LHC to Super LHC |
100 |
2 |
Barish |
Barry |
Caltech |
ILC |
The International Linear Collider: Opportunities and Challenges |
101 |
P |
Sadrozinski |
Ashok |
Humboldt |
Gamma Ray art |
Visualizing Gamma Ray Bursts Through the Inner Eye |
102 |
1 |
Weinstein |
Alan |
Caltech |
Mark II |
Lessons Learned with the Mark II Drift Chamber |
103 |
1 |
Cartiglia |
Nicolo |
INFN |
LPS |
LPS |
104 |
7 |
Amman |
Mark |
LBNL |
Ge |
Germanium-based detectors for gamma-ray imaging and spectroscopy |
105 |
9 |
Mirabolfathi |
Nader |
UC Berkeley |
CDMS |
Massive semiconductor detectors at very low temperatures for dark matter search : CDMS |
106 |
P |
Hara |
Kazuhiko |
Institute of Pure and Applied Sciences, University of Tukuba, |
ATLAS |
On biasing ATLAS SCT barrel modules |