%0 Journal Article
%A Li, Ping
%A Chen, Shiping
%A Liu, Qian
%A Liu, Jianbei
%A Shao, Ming
%A Zhang, Zhiyong
%A Feng, Jianxin
%A Wang, Anqi
%A Hou, Baolin
%A Zhao, Lei
%A Liu, Hongbang
%A Zheng, Yangheng
%T Study of hybrid micropattern gaseous detector with CsI photocathode for Super Tau-Charm facility RICH
%J Journal of Instrumentation
%V 18
%N 04
%@ 1748-0221
%C London
%I Inst. of Physics
%M PUBDB-2024-00364
%M arXiv:2205.01822
%P P04028
%D 2023
%Z The part of the error analysis of the paper still needs to be carefully deduced and is not suitable for publication at present    arXiv:2205.01822 = Withdrawn  Waiting for fulltext 
%X Super τ-Charm facility (STCF) is a future electron-positron collider operating in theτ-Charm energy region with the aim of studying hadron structure and spectroscopy. Thebaseline design of the STCF barrel particle identification (PID) detector, which covers momentumup to 2 GeV/c, is provided by a Ring Imaging Cherenkov Counter (RICH). The RICH features anapproximately focusing design with liquid perfluorohexane sealed in a quartz container as theradiator and a hybrid combination of CsI-coated THGEMs and Micromegas as the photo-electrondetector. A 16×16 cm<sup>2</sup> prototype with a quartz radiator has been built and tested atDESY and stably operated with an effective gain of 10<sup>5</sup>. In this paper, the design,performance, and reconstruction algorithm of RICH detectors are discussed.
%K cesium: iodine (INSPIRE)
%K RICH (INSPIRE)
%K particle identification (INSPIRE)
%K quarz (INSPIRE)
%K photomultiplier (INSPIRE)
%K angular resolution (INSPIRE)
%K Micromegas (INSPIRE)
%K gas electron multiplier (INSPIRE)
%K performance (INSPIRE)
%K electron positron: colliding beams (INSPIRE)
%K detector: design (INSPIRE)
%K micro-pattern detector (INSPIRE)
%K data analysis method (INSPIRE)
%K Cherenkov detectors (autogen)
%K Micropattern gaseous detectors (MSGC (autogen)
%K GEM (autogen)
%K THGEM (autogen)
%K RETHGEM (autogen)
%K MHSP (autogen)
%K MICROPIC (autogen)
%K MICROMEGAS (autogen)
%K InGrid (autogen)
%K etc) (autogen)
%K Particle identification methods (autogen)
%K MicroMegas (autogen)
%K MPGD (autogen)
%K STCF (autogen)
%K RICH (autogen)
%K PID (autogen)
%F PUB:(DE-HGF)16
%9 Journal Article
%U <Go to ISI:>//WOS:000976720300001
%R 10.1088/1748-0221/18/04/P04028
%U https://bib-pubdb1.desy.de/record/601672