Profile:
Yue Chang is currently a Lecturer at the College of Physics Science and Technology, Central China Normal University. Her research focuses on high-precision gaseous tracking detectors, with an emphasis on advanced tracking technologies for next-generation particle physics experiments.
Her research interests include Micro-Pattern Gas Detectors (MPGDs) for both high-energy collider experiments and low-energy rare event searches. Specific topics include pixel readout technologies, detector physics of high-granularity systems, and UV laser-based track calibration techniques.
For the Circular Electron–Positron Collider (CEPC), she proposed a pixel readout Time Projection Chamber (TPC) scheme and carried out systematic studies on detector design, multi-physics simulations, performance optimization, and prototype validation. The related results have been adopted in the CEPC Detector Technical Design Report (TDR) baseline.
Education:
2021 – 2025
Ph.D. in Particle and Nuclear Physics
Nankai University
2019 – 2025
Joint Training Program
Institute of High Energy Physics (IHEP), Chinese Academy of Sciences
Professional Experience:
Aug 2025 – Present
Lecturer
School of Physics Science and Technology
Central China Normal University
Conference Presentations:
IEEE Nuclear Science Symposium (NSS), 2024, USA
Asian Forum for Accelerators and Detectors (AFAD), 2023, Australia
CEPC International Workshop, 2023, China
42nd International Conference on High Energy Physics (ICHEP), 2022, Italy
Selected Publications:
1. Y. Chang, H. R. Qi, X. She, et al., “Design and commission of TPC prototype integrated with 266 nm UV laser,” J. Instrum, P02025 (2025).
2. Y. Chang, H. R. Qi, X. She, et al., “Investigation of the avalanche fluctuations factor in a time projection chamber detector using 266 nm UV laser,” J. Instrum, P04011(2025).
3. Y. Chang, H. R. Qi, Z. Y. Yuan, et al., “Status and prospects of TPC prototype using the UV laser mimic tracks,” J. Phys.: Conf. Ser., 012066(2022).
4. Y. Chang, H. R. Qi, Z. Y. Yuan, et al., “Performance of the continuous ions suppression TPC prototype for circular collider,” J. Instrum, C09065(2020).
