TY - JOUR
T1 - Beam Test of a Baseline Vertex Detector Prototype for CEPC
AU - Li, Shuqi
AU - Wu, Tianya
AU - Huang, Xinhui
AU - Zhou, Jia
AU - Yan, Ziyue
AU - Wang, Wei
AU - Zeng, Hao
AU - Jia, Xuewei
AU - Hu, Yiming
AU - Zhang, Xiaoxu
AU - Liang, Zhijun
AU - Wei, Wei
AU - Zhang, Ying
AU - Wei, Xiaomin
AU - Zhang, Lei
AU - Qi, Ming
AU - Hu, Jun
AU - Fu, Jinyu
AU - Zhang, Hongyu
AU - Li, Gang
AU - Wu, Linghui
AU - Dong, Mingyi
AU - Li, Xiaoting
AU - Casanova, Raimon
AU - Zhang, Liang
AU - Dong, Jianing
AU - Wang, Jia
AU - Zheng, Ran
AU - Lu, Weiguo
AU - Grinstein, Sebastian
AU - da Costa, João Guimarães
N1 - Publisher Copyright:
© 2024 IEEE. Personal use is permitted, but republication/redistribution requires IEEE permission.
PY - 2024/6/1
Y1 - 2024/6/1
N2 - The circular electron positron collider (CEPC) has been proposed to enable more thorough and precise measurements of the properties of Higgs, W, and Z bosons, as well as to search for new physics. In response to the stringent performance requirements of the vertex detector for the CEPC, a baseline vertex detector prototype was tested and characterized for the first time using a 6-GeV electron beam at DESY II Test Beam Line 21 (TB 21). The baseline vertex detector prototype is designed with a cylindrical barrel structure that contains six double-sided detector modules (ladders). Each side of the ladder includes TaichuPix-3 sensors based on monolithic active pixel sensor (MAPS) technology, a flexible printed circuit (FPC), and a carbon fiber support structure. In addition, the readout electronics and the data acquisition (DAQ) system were also examined during this beam test. The performance of the prototype was evaluated using an electron beam that passed through six ladders in a perpendicular direction. The offline data analysis indicates a spatial resolution of about 5 µm, with detection efficiency exceeding 99% and an impact parameter resolution of about 5.1 µm. These promising results from this baseline vertex detector prototype mark a significant step toward realizing the optimal vertex detector for the CEPC.
AB - The circular electron positron collider (CEPC) has been proposed to enable more thorough and precise measurements of the properties of Higgs, W, and Z bosons, as well as to search for new physics. In response to the stringent performance requirements of the vertex detector for the CEPC, a baseline vertex detector prototype was tested and characterized for the first time using a 6-GeV electron beam at DESY II Test Beam Line 21 (TB 21). The baseline vertex detector prototype is designed with a cylindrical barrel structure that contains six double-sided detector modules (ladders). Each side of the ladder includes TaichuPix-3 sensors based on monolithic active pixel sensor (MAPS) technology, a flexible printed circuit (FPC), and a carbon fiber support structure. In addition, the readout electronics and the data acquisition (DAQ) system were also examined during this beam test. The performance of the prototype was evaluated using an electron beam that passed through six ladders in a perpendicular direction. The offline data analysis indicates a spatial resolution of about 5 µm, with detection efficiency exceeding 99% and an impact parameter resolution of about 5.1 µm. These promising results from this baseline vertex detector prototype mark a significant step toward realizing the optimal vertex detector for the CEPC.
KW - Circular electron positron collider (CEPC)
KW - monolithic active pixel sensor (MAPS)
KW - vertex detector
UR - http://www.scopus.com/inward/record.url?scp=85192172085&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/d36f2729-214d-31e1-9149-3f5c6aed80b7/
U2 - 10.1109/TNS.2024.3395022
DO - 10.1109/TNS.2024.3395022
M3 - Article
AN - SCOPUS:85192172085
SN - 0018-9499
VL - 71
SP - 1319
EP - 1323
JO - IEEE Transactions on Nuclear Science
JF - IEEE Transactions on Nuclear Science
IS - 6
M1 - 10510346
ER -