面向超级陶粲工厂的气凝胶阈值式切伦科夫计数器方案研究

BarnyakovAlexander Yu.; BarnyakovMikhail Yu.; BobrovnikovViktor S.; BuzykaevAlexey R.; ChepelevAlexander V.; EfremovRobert A.; DanilyukAlexander F.; KatcinAlexander A.; KononovSergey A.; KravchenkoEvgeniy A.; KuyanovIvan A.; OfitserovArtem D.; OvtinIvan V.; PetrukhinKirill G.; PodgornovNikolay A.; SavenkovDmitry K.; WangXiaolong; WangXiyang; ZouShiming

doi:10.52396/JUSTC-2025-0064

面向超级陶粲工厂的气凝胶阈值式切伦科夫计数器方案研究

Option of aerogel threshold Cherenkov counters for the Super Tau-Charm Facility

摘要

摘要: 本研究为超级陶粲工厂项目提出了一种基于阈值型气凝胶切伦科夫探测器的粒子识别系统。该系统主要目标是在0.7至2.0 GeV/c的动量区间内实现π介子与K介子的有效鉴别。为此，我们提出了以折射率为1.030的气凝胶作为辐射体的基础计数器方案。为进一步提升探测器的粒子识别能力，本研究还提出了一种采用双折射率的气凝胶（1.015与1.030）的拓展方案。该方案可在0.5至0.9 GeV/c的动量范围内同时实现μ子与π介子的鉴别。两种方案均采用ASHIPH方法进行切伦科夫光收集。为提升光子探测效率，探测器采用了硅光电倍增器SiPM与波长位移长条相结合的设计。

Abstract: A particle identification system (PID) based on the threshold aerogel Cherenkov detectors has been suggested for the Super Tau Charm Facility project. The main aim of the system is to separate pions and kaons in the momentum range from 700 to 2000 MeV/c. For this purpose, the basic option of the Cherenkov threshold counters system is suggested with an aerogel radiator having a refractive index of 1.030. To expand the particle identification capabilities of the detector, an advanced option is suggested with two refractive indices: 1.015 and 1.030. This system could additionally provide \mu/\pi identification in the momentum range from 500 to 900 MeV/c. Both options employ the ASHIPH (aerogel-shifter-photomultiplier) method of Cherenkov light collection. To increase the number of detected photons, the SiPM photodetectors and straight wavelength shifting bars are used in the detectors.

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