13:00
|
Unknown (Virtual block)
(until 14:00)
|
14:00
|
Poster Session
(until 14:01)
|
14:01
|
POSTER
(until 17:46)
(POSTER - Sun: B1F-Meeting room#3, B2F-RAN1/2; Mon-Wed: B1F Meeting rooms #5-6)
|
14:01
|
A simple identification of multiple-hit events to improve the image quality of fine-pixel scintillation detector
-
Shogo SATO
(Waseda University)
|
14:02
|
First application of super-resolution imaging technique using a Compton camera
-
Shogo SATO
(Waseda university)
|
14:03
|
Development of gamma-ray detector consisting of 1 mm pixelated halide scintillator arrays and MPPC arrays
-
Masao Yoshino
(IMR, Tohoku University)
|
14:04
|
The miniaturized read-out interface “SPECTRIG MAPD” dedicated for silicon photomultipliers
-
Michael Holik
(University of West Bohemia (CZ))
|
14:05
|
The TSV Processing of the Hybrid Pixel Detector for the High Energy Photon Source
-
Jie Zhang
(Institute of High Energy Physics(IHEP), Chinese Academy of Sciences(CAS))
Wei Wei
(IHEP, CAS, China)
|
14:07
|
Use of a monolithic SOI pixel detector to study rolling contact fatigue of railway rails
- Prof.
Toshihiko Sasaki
(Kanazawa University)
|
14:08
|
Development of monolithic SOI pixel sensors capable of fine measurements of space and time
-
Hitoshi Murayama
(University of Tsukuba )
|
14:09
|
Fine residual stress distribution measurement of steel materials by the SOI pixel detector with synchrotron X-rays
- Dr
Ryutaro Nishimura
(High Energy Accelerator Research Organization)
|
14:10
|
Performance evaluation of recoil electron track detection with an electron tracking Compton camera using an SOI pixel sensor
-
Ryo Kato
(Ibaraki University)
|
14:11
|
Development of a Neutron Imaging Sensor using INTPIX4, SOI Pixelated Silicon Devices
-
Yoshio Kamiya
(University of Tokyo (JP))
|
14:12
|
Metal materials evaluation by X-ray using SOI pixel detector
- Dr
Shingo Mitsui
(Kanazawa university)
|
14:13
|
Soft X-ray Trigger Performance of X-ray Astronomy SOI Pixel Sensors, "XRPIX"
- Mr
Ryota Kodama
(Kyoto University)
|
14:14
|
Improvement and Evaluation of the Event-driven SOI Pixel Detector with Pattern Processing Circuit for X-ray Astronomy
-
Ayaki Takeda
(University of Miyazaki)
|
14:15
|
Performance verification of detecting soft X-rays with a next generation Si CMOS detector for space applications
- Mr
Naoki Ogino
(College of Science and Engineering, School of Mathematics and Physics, Kanazawa University)
|
14:16
|
DESIGN OF LARGE SCALE SENSORS IN A 180nm CMOS PROCESS MODIFIED FOR RADIATION TOLERANCE
-
Leyre Flores Sanz De Acedo
(University of Glasgow (GB))
|
14:17
|
Fabrication and X-ray characterization of an organic photodetector for indirect X-ray imaging sensor
- Prof.
Chang-Woo Seo
(Yonsei University)
|
14:18
|
Fabrication and its Performance of a Pixelated Silicon Sensor Integrated with JFET
-
Hwanbae Park
(Kyungpook National University)
|
14:19
|
Development of Ultra-Radiation Hard 3D-Trench-Electorde Silicon Micro-Nano Detectors
- Ms
fenglan kuang
(xiangtan university)
|
14:20
|
Design, electrical properties and fabrication method study of a novel 3D-Compound-Shell-Electrode silicon detector
- Dr
Manwen Liu
|
14:21
|
A novel Pinned Depleted Diode design for the CEPC vertex detector
- Mr
Zhigang Wu
(IHEP)
|
14:22
|
Highly compact digital pixel structures developed for the CEPC vertex detector
- Dr
Yang ZHOU
(Institute of High Energy Physics, CAS, Beijing, China)
|
14:23
|
A fully functional peripheral readout logic design for a CMOS pixel sensor prototype developed for the CEPC vertex detector
-
Xiaomin WEI
|
14:24
|
Fast in-pixel readout for a CMOS pixel sensor prototype developed for the CEPC vertex detector
- Dr
Ying Zhang
(IHEP)
|
14:25
|
Monolithic CMOS sensors for sub-nanosecond timing
-
Thanushan Kugathasan
(CERN) Prof.
Takeharu Etoh
(Ritsumeikan University)
|
14:26
|
Measurement results on Capacitively Coupled Particle Detector with 25 µm x 50 µm pixel size and 50 µm Pad pitch
-
Hui Zhang
(Karlsruhe Institute of Technology (KIT))
|
14:27
|
Testbeam measurements with passive CMOS pixel sensors in 150 nm LFoundry technology bump-bonded to the RD53A readout chip
-
Yannick Manuel Dieter
(University of Bonn (DE))
|
14:28
|
ATLASPIX3 – a reticle size HVCMOS pixel sensor designed for construction of multi chip modules
-
Rudolf Schimassek
(KIT - Karlsruhe Institute of Technology (DE))
|
14:29
|
X-ray irradiation studies on a large area HVCMOS pixel sensor chip for ATLAS ITk
-
Rudolf Schimassek
(KIT - Karlsruhe Institute of Technology (DE))
|
14:30
|
Study of the HV-CMOS active strip sensor (CHESS2) for future silicon trackers
-
Yubo Han
(Chinese Academy of Sciences (CN))
|
14:31
|
Particle tracking and radiation field characterization with Timepix3 in ATLAS
-
Thomas Remy Victor Billoud
(Universite de Montreal (CA))
|
14:32
|
The MuPix sensor for the Mu3e experiment
-
Alena Larissa Weber
(Ruprecht Karls Universitaet Heidelberg (DE))
|
14:33
|
ATLAS17LS - Large-format prototype silicon strip sensors for the long-strip barrel section of the ATLAS ITk strip detector
-
Yoshinobu Unno
(High Energy Accelerator Research Organization (JP))
|
14:34
|
Initial Tests of Large Format Sensors for the ATLAS ITk Strip Tracker
-
Christoph Thomas Klein
(University of Cambridge (GB))
|
14:35
|
Strip sensor performance in prototype modules built for ATLAS ITk
-
Vitaliy Fadeyev
(University of California,Santa Cruz (US))
|
14:36
|
Design and Evaluation of Large Area Strip Sensor Prototypes for the ATLAS Inner Tracker Detector
-
Miguel Ullan Comes
(CNM-Barcelona (ES))
|
14:37
|
Quality Assurance Methodology for the ATLAS ITk Strip Sensor Production
-
Miguel Ullan Comes
(CNM-Barcelona (ES))
|
14:38
|
Measuring the borders of the active area on silicon strip sensors
-
Sai Neha Santpur
(Lawrence Berkeley National Lab. (US))
|
14:39
|
Improvement in Breakdown Voltage and radiation hardness of doping less charge plasma Silicon Microstrip Detectors studied using TCAD simulator
- Dr
A. Srivastava
(Jawaharlal Nehru University, New Delhi 110067, India)
|
14:40
|
Measured Effectiveness of Deep N-well Substrate Isolation in a 65nm Pixel Readout Chip Prototype
- Dr
Peilian Liu
(IHEP)
|
14:41
|
Prototyping of a 25 Gbps optical transmitter for applications in high-energy experiments
-
Suen Hou
(Academia Sinica (TW))
|
14:42
|
A Readout Network ASIC for High-Density Electrode Array Targeting Neutrinoless Double-Beta Decay Search in TPC
-
Le Xiao
(Central China Normal University)
|
14:43
|
A low-power small-area 6T sram cell for tracking detector applications
- Dr
chaosong gao
(Central China Normal University)
|
14:44
|
Results from the CBC3.1 readout ASIC for CMS 2S-modules
-
Kirika Uchida
(Imperial College (GB))
|
14:45
|
FAST: a 30 ps time resolution front-end ASIC for a 4D tracking system based on Ultra-Fast Silicon Detectors
-
Nicolo Cartiglia
(INFN Torino (IT))
|
14:46
|
A 12-Channel 120 Gbps Optical Transmitter in 55 nm CMOS for High-Energy Physics Experiments
- Dr
Di Guo
(Southern Methodist University)
|
14:47
|
A 12-Channel 120-Gb/s Optical Receiver Array in a 55 nm CMOS technology for High-Energy Physics Experiments
- Dr
Chufeng Chen
(Central China Normal University)
|
14:48
|
JICG CMOS Transistors for Reduction of Total Ionizing Dose and Single Event Effects in a 130nm bulk SiGe BiCMOS technology
- Dr
Roland Sorge
(IHP)
|
14:49
|
High Counting Rate High Dynamic Range Front-End Readout ASIC for Electromagnetic Calorimeter in HIEPA
- Mr
Chao Liu
(Northwestern Polytechnical University)
|
14:50
|
A Wide-Range, 42ps Resolution Time-to-Digital Converter for the Electromagnetic Calorimeter of HIEPA
- Mr
Chao Liu
(Northwestern Polytechnical University)
|
14:51
|
A fully integrated 10-bit 100 MS/s SAR ADC with metastability elimination for the high energy physics experiments
- Mr
Shuxin Cao
(International Green Chip Co., Ltd.)
|
14:52
|
Design of a low-noise, high-linearity, readout ASIC for CdZnTe detectors in gamma spectrometers
- Dr
Jia Wang
(Northwestern Polytechnical University)
|
14:53
|
Development of CdTe Hybrid Pixel ASIC for Hard X-ray Imaging
-
Tadashi Orita
(The University of Tokyo)
|
14:54
|
Development of Front-end ASIC for Silicon-strip Detectors of J-PARC Muon g-2/EDM Experiment
- Dr
Yutaro Sato
(High Energy Accelerator Research Organization)
|
14:55
|
Large Input-Capacitance Compensation Method Employed in a CSA Designed for EMCs in HIEPA
- Prof.
Jia Wang
(Northwestern Polytechnical University)
|
14:56
|
Novel architecture for the analog front-end of Medipix4
-
Viros Sriskaran
(EPFL - Ecole Polytechnique Federale Lausanne (CH))
|
14:57
|
Analysis of multiple cell upset characteristics for logical circuits in radiation environment
- Dr
Lili Ding
(State Key Laboratory of Pulsed Radiation Simulation and Effect, Northwest Institute of Nuclear Technology)
|
14:58
|
Analysis of CSNS neutron-induced displacement damage effects on top illumination planar InGaAs p-i-n photodetectors
- Mr
Yuanyuan Xue
|
14:59
|
Charge transfer inefficiency degradations of the CCD detector induced by proton and neutron radiation
- Prof.
Zujun Wang
|
15:00
|
The effects of trapped charge on the signal formationand on the detection efficiency for subsequent pulses inirradiated silicon sensors at operating temperature
-
Liv Wiik-Fuchs
(Albert Ludwigs Universitaet Freiburg (DE))
|
15:01
|
Comparative characterisation of nitrogen doped highly irradiated silicon sensors
-
Liv Wiik-Fuchs
(Albert Ludwigs Universitaet Freiburg (DE))
|
15:02
|
Mapping the in-plane electric field inside irradiated diodes
-
Luise Poley
(Deutsches Elektronen-Synchrotron (DE))
|
15:03
|
A SEL Sensitive Area Testing System for Integrated Circuits Based on the MAPS Detector
- Mr
Fan Shen
(Central China Normal University)
|
15:04
|
Measurements and simulations of surface and bulk radiation damage effects in silicon detectors for phase II CMS outer tracker
-
Valentina Mariani
(Universita e INFN, Perugia (IT))
|
15:05
|
First precision spectroscopy of cesium-137 from the ground to 150~m above in Fukushima
- Mr
Takuya Kurihara
(Waseda University)
|
15:06
|
A Concept for Spatially and Timely Correlated Single Event Effects Detection in Semiconductors Using Timepix3 Pixel Detectors
- Dr
Jan Broulim
(University of West Bohemia)
|
15:07
|
Studies for low mass large area monolithic silicon pixel detector modules using the MALTA CMOS pixel chip
-
Petra Riedler
(CERN)
|
15:08
|
Beam background study for the Belle II Silicon Vertex Detector
-
Hikaru Tanigawa
(The University of Tokyo)
|
15:09
|
The Silicon Sensors for the High Granularity Calorimeter of CMS
-
Peter Paulitsch
(Austrian Academy of Sciences (AT))
|
15:10
|
Thermal management issue in module assembly for the ATLAS ITk pixel upgrade
-
Fabian Huegging
(University of Bonn (DE))
|
15:11
|
Data-acquisition system developments for ATLAS pixel QA/QC test toward High Luminosity LHC
-
Kazuki Todome
(Universita e INFN, Bologna (IT))
|
15:12
|
Optical transceivers for event triggers in the ATLAS phase-I upgrade
-
Jia-Hao Li
(National Taiwan University (TW))
|
15:13
|
Design and hardware evaluation of the optical-link system for the ATLAS Liquid Argon Calorimeter Phase-II Upgrade
-
Datao Gong
(Southern Methodist University (US))
|
15:14
|
SOlar Neutron and Gamma-ray Spectroscopy (SONGS) Mission
- Dr
Kazutaka Yamaoka
(ISEE, Nagoya Univ.)
|
15:15
|
Optical Blocking Performance of CCDs Developed for the X-ray Astronomy Satellite XRISM
-
Hiroyuki Uchida
(Kyoto University)
|
15:16
|
Performance evaluation of GAGG/LFS scintillator+MPPC array readout with ASIC
- Mr
Daiki Nobashi
(Nagoya University)
|
15:17
|
Hodoscope with Timepix Detectors for PilsenCube2 Cubesat
-
Ondřej Urban
|
15:18
|
Screening and calibration of XRISM/Xtend flight model CCD
- Dr
Kiyoshi Hayashida
(Osaka University)
|
15:19
|
First demonstration of real-time in-situ dosimetry of x-ray microbeams using a large format CMOS sensor
- Mr
Sam Flynn
(National Physical Laboratory)
|
15:20
|
CO2 cooling through microchannels
-
Kazuyoshi Carvalho Akiba
(Nikhef)
|
15:21
|
Timepix3 telescope time performance.
-
Kazuyoshi Carvalho Akiba
(Nikhef)
|
15:22
|
A pixelated beam profile monitor for the 320kV ECR platform at Lanzhou
- Dr
Yuezhao Zhang
(Institute of Modern Physics, Chinese Academy of Sciences) Prof.
Chengxin Zhao
(Institute of Modern Physics, CAS)
|
15:23
|
Study of Interpad-gap of FBK (UFSD3) and HPK 3.1 Type sensors with Transient Current Technique
-
Shudhashil Bharthuar
(University of Helsinki)
|
15:24
|
IHEP LGAD Sensor Design for ATLAS HGTD
-
Kewei Wu
(Chinese Academy of Sciences (CN))
Mei Zhao
(Chinese Academy of Sciences (CN))
|
15:25
|
Study of total ionization does effects on IHEP-NDL LGAD sensors
-
Chengjun Yu
(Chinese Academy of Sciences (CN))
|
15:26
|
Study of characterization, time resolution and proton hardness of IHEP-NDL LGAD sensors
-
Yuzhen Yang
(Chinese Academy of Sciences (CN))
|
15:27
|
Layout and Performance of HPK Prototype LGAD sensors for the High-Granularity Timing Detector HGTD
-
Yanwen Liu
(University of Science and Technology of China (CN))
Xiao Yang
(University of Science and Technology of China (CN))
|
15:28
|
Low Gain Avalanche Detectors for Precision Timing in the CMS Endcap
-
Ryan Heller
(Fermi National Accelerator Lab. (US))
|
15:29
|
Study of time resolution of low-gain avalanche detectors
-
Kyoji Onaru
(University of Tsukuba (JP))
|
18:00
|
Welcome party
(until 21:00)
(B1F-Meeting rooms #5-6)
|