What question did this study set out to answer?

The aim is to improve particle identification accuracy in the BESIII experiment by analyzing dE/dx measurements.

February 5, 2026

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Key Points

The aim is to improve particle identification accuracy in the BESIII experiment by analyzing dE/dx measurements.
Analyzed energy deposition per unit length (dE/dx) from the drift chamber sub-detector.
Examined time-of-flight measurements from the time-of-flight sub-detector.
Reviewed software processes including simulation, correction, calibration, and reconstruction.
Enhanced understanding of dE/dx performance leading to improved particle identification.
Identified key factors influencing systematic uncertainty in measurements.
Achieved high efficiency in particle detection related to charm and light hadron decays.

Abstract

The BESIII experiment functions as an electron-positron collider in the tau-charm energy region, dedicated to investigating various physics objectives related to charm, charmonium, and light hadron decays. Within these goals, the accurate identification of particles plays a pivotal role, ensuring both high efficiency and minimal systematic uncertainty. In the context of the BESIII experiment, the particle identification performance heavily depends on two key measurements: the energy deposition per unit length (dE/dx) acquired from the main drift chamber sub-detector and the time-of-flight measurement from the time-of-flight sub-detector. This paper specifically delves into the dE/dx aspect, presenting a comprehensive overview of the dE/dx software utilized in the BESIII experiment, encompassing simulation, correction, calibration, and reconstruction processes.

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Abstract

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