01 |
CSGlass for hadron calorimetry at the EIC |
T. Horn |
CUA, USA |
02 |
A proposal for MPGD-based transition radiation detector/tracker |
Y. Furletova, and J. Velkovska
|
Jlab, USA, and Vanderbilt U., USA
|
03 |
Precise Timing with a Micro Pattern Gaseous Detector |
K. Dehmelt |
Stony Brook U., USA |
04 |
BeAGLE, a tool to refine IR and detector requirements for the EIC |
M.D. Baker |
MDBPADS LLC, Miller Place, NY, USA |
05 |
Continued Development and Evaluation of a Low-Power High-Density High Timing Precision Readout ASIC for AC-LGADs (HPSoC) |
B. Schumm, and L. Macchiarulo
|
UCSC, USA, and Nalu Scientific LLC
|
06 |
A new radiation tolerant low power Phase-Locked Loop IP block in a 65 nm technology for precision clocking in the EIC frontend electronics |
D. Neyret, and W. van Noije
|
IRFU, CEA Saclay, France, and Instituto de Física da U. de São Paulo (USP), Brasil
|
07 |
Refined Methods for Transfer Matrix Reconstruction Using Beamline Silicon Detectors for Exclusive Processes at the EIC |
A. Jentsch, and M. Murray
|
BNL, USA, and U. of Kansas, USA
|
08 |
TOMATO (end-TO-end siMulation fAst deTectOrs): An end-to-end simulation framework for fast detectors at the EIC |
D. Tapia Takaki |
The University of Kansas Center for Research, Inc., USA |
09 |
Z-Tagging Mini DIRC |
C. E. Hyde |
Old Dominion U., USA |
10 |
Implementation of a gain layer in Monolithic Active Pixel Sensor (MAPS) for high resolution timing application |
P. Schwemling |
CEA IRFU Saclay, France |
11 |
Development of a Generic, Low-power and Multi-channel Frontend Readout ASIC for Precision Timing Measurements at EIC |
Zhenyu Ye, and A. Apresyan
|
U. of Illinois at Chicago, USA, and Fermilab |
12 |
Development of a Novel Readout Concept for an EIC DIRC |
G. Kalicy (submitter)
|
CUA, USA |
13 |
Simulations of the physics impact of a solenoid-based compensation scheme for the field of the main detector solenoid in IR8 |
P. Nadel-Turonski, and Wenliang Li, and V. Morozov
|
Stony Brook U., USA, and ORNL, USA
|
14 |
Tracking and PID with a GridPIX Detector |
P. Garg |
Stony Brook U., USA |
15 |
Particle identification and tracking in real time using Machine Learning on FPGA |
S. Furletov, and D. Romanov
|
Jlab, USA |
16 |
Development of High Precision and Eco-friendly MRPC TOF Detector for EIC |
Zhihong Ye, and Zhenyu Ye
|
Tsinghua U., China, and U. of Illinois at Chicago, USA
|
17 |
Machine Learning for Detection of Low-Energy Photons in the EIC ZDC |
L. Wood |
PNNL, USA |
18 |
Superconducting Nanowire Detectors for the EIC |
W. Armstrong |
ANL, USA |
19 |
EIC KLM R&D Proposal |
A. Vossen |
Duke U., USA |
20 |
Removed at request of the PI: High Quantum Efficiency III-nitrides photocathodes and hybrid photon detectors for EIC |
L. Cultrera |
BNL, USA |
21 |
Exclusive and Semi-inclusive reactions in the muonic channel, and development of muon detectors in the far forward region |
M. Boer |
Virginia Tech, USA |
22 |
Injection Molding of Large Plastic Scintillator Tiles at Optical Quality |
O. Hartbrich |
ORNL, USA |
23 |
Development of Thin Gap MPGDs for EIC Trackers |
K. Gnanvo |
Jlab, USA |
24 |
Simplified LGAD structure with fine pixelation |
G. Giacomini |
BNL, USA |
25 |
Imaging Calorimetry for the Electron-Ion Collider |
M. Zurek, and Z. Papandreou
|
ANL,USA and U. Regina, Canada
|
26 |
Silicon Tracking and Vertexing Consortium |
N. Apadula (submitter)
|
LBNL, USA |
27 |
Removed at request of the PI: Combined design of a projective tracker and PID system for the EIC Detector-1 with the assistance of Artificial Intelligence
|
C. Fanelli |
College of William and Mary, USA |