● Sept. 1986 to July 1991
Tsinghua University, Department of Engineering Physics, graduated and obtained B.S. degree in Nuclear Electronics
● Sept. 1991 to July 1994
Northwest Institute of Nuclear Technology , graduated and obtained M.Eng. degree in Nuclear Electronics and Nuclear Detection Technology.
● Sept. 1996 to June 1999
Tsinghua University, Department of Engineering Physics, graduated and obtained Ph.D. degree in Nuclear Technology & Applications.
1. Development and evaluation of a CCD-based portable digital flash x-ray imager. SPIE v3443, 1998:39-47
2. A kind of multi-MRPC cosmic ray testing system. IEEE NSS Conference, conference record, Vols 1-5:643-647,2004,ISTP:BAS86
3. Chinese STAR-TOF MRPC production and QA testing. The 19th International Conference on Ultra-Relativistic Nucleus-Nucleus Collisions (QM2006). Nov.14-20,2006. Shanghai. (SCI)International Journal of Modern physics E Vol 16 (2007) 2541-2548
4. Study on the performance of high rating MRPC. IEEE NSS-MIC 2008. Oct 19-25, Dresden, Germany.
5. Performance testing of a long-strip two-end readout multi-gap resistive plate chamber. Chinese Physics C, 2009,33(2):114-118
6. Production and quality control of STAR-TOF MRPC,Nuclear Instruments and Methods in Physics research A,2010, 613: 200-206
7. Development of multi-gap resistive plate chambers with low-resistive silicate glass electrodes for operation at high particle fluxes and large transported charges, Nuclear Instruments and Methods in Physics research A, 2010, 621: 151-156
8. A MRPC prototype for SOLID-TOF in Jlab. 2013_JINST_8_P03003
9. Development of high-rate MRPCs for high resolution Time-of-Flight systems. NIMA, 2013,A713 2013:40-51
10. Progress of R&D and production of timing RPCs in Tsinghua University. Nuclear Instruments and Methods in Physics research A661, 2012: S134-S136
11. A prototype of strip readout MRPC for CBM-TOF. Nuclear Instruments and Methods in Physics research A661, 2012: S125-S128
12. Performance of two different modules of long-strip multi-gap resistive plate chamber, Nuclear Science and Techniques, 2011, 22: 330-333
13. Study on the gama ray and neutron sensitivity of MRPC. Indian J.Physics, Vol 85. No.7 1115-1118,2011
14. Performance of a new LMRPC prototype for the STAR MTD system. NIMA 640(2011)65-69
15. Development of high-rate MRPCs for high resolution Time-of-Flight systems,Nuclear Instruments and Methods in Physics research A,2013, 713: 40-51
16. Production of Long-strip Multi-gap Resistive Plate Chamber module for the STAR-MTD system, JINST, 2012 7 P10006
17. A new design of MRPC to reduce noise and crosstalk,2014 JINST 9 C07007
18. A thin float glass MRPC for the outer region of CBM-TOF wall. Nucl. Instr. Methos A735(2014) 277-282
19. Performance study of a Mosaic high rate MRPC. 2016 INST 11 C09016
20. Performance studies of MRPC prototypes for CBM. 2016 JINST 11 C10006
21. Development of a large-area Multigap RPC with adequate spatial resolution for muon tomography. 2016 JINST 11 C11008
22. Gas related effects on multi-gap RPC performance in high luminosity experiments. 2016 JINST 11 C11041
23. Multigap Resistive Plate Chambers for Time of Flight Applications. Appl. Sci. 2021, 11, 111. https://dx.doi.org/10.3390/app11010111
24. The High-Rate Sealed MRPC to Promote Pollutant Exchange in Gas Gaps: Status on the Development and Observations. Appl. Sci. 2021, 11,
25. Simulation of MRPC performance under different counting rates. 2021, JINST_052P_0821
26. Neural network-featured timing systems for radiation detectors: performance evaluation based on bound analysis. 2021.JINST 16 P09019
27. High time-resolution MRPC detector for TOF-PET. Nucl.Instr .Meth.A 1055 (2023) 168453
28. Beam test result of the sealed MRPC prototype for CEE-eTOF. JINST 088 P1023
29. Development of a sealed MRPC with high time resolution. Nuclear Inst. and Methods in Physics Research, A 1052 (2023) 168269
30. A conceptual design of TOF based on MRPC technology for the future electron–positron Higgs factory. Nuclear Instruments and Methods in Physics Research A 1056 (2023) 168656