Professors
WANG Yi
Professor

Ph.D.

Tel: 010-62771960

Email: yiwang@mail.tsinghua.edu.cn

Educational Background

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.


Work Experiences

● 2014.12-   Department of Engineering Physics, Tsinghua University  Professor

● 2006.6-2014.12  Department of Engineering Physics, Tsinghua University Associate Professor

● 2004.4-2006.5  Department of Physics, Tsinghua University, Postdoc      

● 1991.7-2004.3  Northwest Institute of Nuclear Technology


Teaching work

Undergraduate course: Principle and Technology of Particle Detection

Graduate course: Principle and Application of Optoelectronic Imaging Detector


Research Field

Cosmic ray muography, Radiation detection and detector, Digital X ray imaging technology, High energy physics.


Academic Achievements

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


Award honors

Twenty five Chinese patent.

Two of the ministry awards for Scientific and Technological Advancement.


    • Address : Department of Engineering Physics, Tsinghua University (Liu Qinglou)
    • Zip code:100084
    • Phone:010-62785727
    • E-mail:gwbgs@mail.tsinghua.edu.cn
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