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Main Authors: Yu, Dian, Ding, Houqian, Zhu, Yongfeng, Liu, Kun, Qi, Ming, Fan, Yunyun
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.18164
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_version_ 1866914406534742016
author Yu, Dian
Ding, Houqian
Zhu, Yongfeng
Liu, Kun
Qi, Ming
Fan, Yunyun
author_facet Yu, Dian
Ding, Houqian
Zhu, Yongfeng
Liu, Kun
Qi, Ming
Fan, Yunyun
contents Charged-hadron identification (PID) is a critical requirement for the physics program of the Circular Electron-Positron Collider (CEPC). The baseline detector relies on ionization measurements from a time projection chamber (TPC), which provides strong PID capability at low momenta but becomes less effective at higher momenta. In this work, we investigate an extended PID strategy that combines dN/dx information from the TPC with time-of-flight (ToF) measurements from a silicon-based outer tracker (OTK) and a timing-upgraded inner tracker (ITK) equipped with AC-LGAD sensors. A unified discriminant is constructed to exploit the complementary sensitivity of ionization and timing observables. The performance is evaluated using simulated $Z \to q\bar{q}$ events, focusing on kaon identification in the presence of dominant pion backgrounds. The combined configuration significantly improves both efficiency and purity over a broad kinematic range, extending PID capability to both sub-GeV and multi-GeV regions. These results highlight the impact of precision timing on tracking detectors and demonstrate a viable path to enhanced PID performance for future lepton colliders.
format Preprint
id arxiv_https___arxiv_org_abs_2507_18164
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Evaluation of PID Performance at CEPC and Optimization with Combined dN/dx and Time-of-Flight Data
Yu, Dian
Ding, Houqian
Zhu, Yongfeng
Liu, Kun
Qi, Ming
Fan, Yunyun
High Energy Physics - Experiment
Instrumentation and Detectors
Charged-hadron identification (PID) is a critical requirement for the physics program of the Circular Electron-Positron Collider (CEPC). The baseline detector relies on ionization measurements from a time projection chamber (TPC), which provides strong PID capability at low momenta but becomes less effective at higher momenta. In this work, we investigate an extended PID strategy that combines dN/dx information from the TPC with time-of-flight (ToF) measurements from a silicon-based outer tracker (OTK) and a timing-upgraded inner tracker (ITK) equipped with AC-LGAD sensors. A unified discriminant is constructed to exploit the complementary sensitivity of ionization and timing observables. The performance is evaluated using simulated $Z \to q\bar{q}$ events, focusing on kaon identification in the presence of dominant pion backgrounds. The combined configuration significantly improves both efficiency and purity over a broad kinematic range, extending PID capability to both sub-GeV and multi-GeV regions. These results highlight the impact of precision timing on tracking detectors and demonstrate a viable path to enhanced PID performance for future lepton colliders.
title Evaluation of PID Performance at CEPC and Optimization with Combined dN/dx and Time-of-Flight Data
topic High Energy Physics - Experiment
Instrumentation and Detectors
url https://arxiv.org/abs/2507.18164