Native of Henan, graduated from Luoshan High School. Award winner of the National Natural Science Award and doctoral advisor.
· 1991: Obtained Bachelor of Science and Bachelor of Engineering degrees from Tsinghua University.
· 1994: Obtained a Master of Science degree from Beijing Normal University.
· 1999: Obtained a Ph.D. in Particle Physics and Nuclear Physics from the Institute of High Energy Physics, Chinese Academy of Sciences, and won the CAS President Scholarship.
· 1999 - 2001: Conducted postdoctoral research at the China Center of Advanced Science and Technology, earning the title of Outstanding Postdoctoral Fellow of the Chinese Academy of Sciences.
· 2001 - 2002: Worked at the Institute of High Energy Physics, Chinese Academy of Sciences.
· 2002 - 2011: Participated in CLEO and ATLAS collaborations in the United States, conducting research in high-energy physics experiments and medical physics.
· 2011 - Present, Serving as a professor at the Department of Modern Physics, University of Science and Technology of China.
His main research areas are particle collision physics and dark matter research. Successfully measured the hadronic reaction cross-section (R value) in the 2-5 GeV energy region of e+e- annihilation at the BESII, receiving the First Prize of Beijing Science and Technology Award, the CAS Outstanding Scientific Achievement Award, and the Second Prize of National Natural Science Award. Conducted multi-body decay studies of psi(2S), searches for non-DDbar decays of psi(3770), and studies of semi-leptonic decays of D mesons in the CLEO collaboration.
Participated in the ATLAS collaboration's research on ttbar production cross-section measurement and SUSY particle searches. Published more than 200 papers in key international academic journals.
Currently, he is engaged in fine scanning measurements of R-values on BESIII, experimental studies of the nature of hadron production QCD, and space dark matter detection. Since returning to China in May 2011, he has been involved in the ATLAS, BESIII, and Daya Bay Phase II experiments, focusing on Higgs searches, new physics beyond the Standard Model, and the upgrade of the ATLAS detector. He is the leader of USTC's participation in the BESIII experiment, responsible for the analysis of light hadron spectroscopy, and is in charge of USTC's involvement in the Daya Bay Phase II neutrino experiment, participating in physical analysis and the simulation and construction of the detector.
Research Directions
· Beijing Electron Positron Collider BEPCII/Beijing Spectrometer BESIII
· Space Cosmic Ray and Dark Matter Detection
Admissions Information
Applicants should have a solid foundation in mathematics and physics, understand nuclear and particle physics theories and particle detector knowledge, and have good English proficiency to participate in international exchanges. The exam subjects are English, nuclear and particle physics or quantum field theory, and particle physics experimental methods or nuclear and particle detection technology.
Papers and Monographs
1) Measurement of the Cosmic Ray Helium Energy Spectrum from 70 GeV to 80 TeV with the DAMPE Space Mission - Measurement of the Cosmic Ray Helium Energy Spectrum from 70 GeV to 80 TeV with the DAMPE Space Mission - 2021
2) Measurement of Proton Electromagnetic Form Factors in e+ e- → p pbar in the Energy Region 2.00–3.08 GeV - Measurement of Proton Electromagnetic Form Factors in e+ e- → p pbar in the Energy Region 2.00–3.08 GeV - 2020
3) Observation of a Resonant Structure in e+ e- → K+ K- π0π0 - Observation of a Resonant Structure in e+ e- → K+ K- π0π0 - 2020
4) Oscillating features in the electromagnetic structure of the neutron - Oscillating features in the electromagnetic structure of the neutron - 2021
5) Measurement of the Cross Section for e(+)e(-) -> Hadrons at Energies from 2.2324 to 3.6710 GeV - Measurement of the Cross Section for e(+)e(-) -> Hadrons at Energies from 2.2324 to 3.6710 GeV - 2022
6) Probing the internal structure of baryons - Probing the internal structure of baryons - 2021
7) Detection of spectral hardenings in cosmic-ray boron-to-carbon and boron-to-oxygen flux ratios with DAMPE - Detection of spectral hardenings in cosmic-ray boron-to-carbon and boron-to-oxygen flux ratios with DAMPE - 2022
Affiliation: School of Physical Sciences
Address: 96 Jinzhai Road, University of Science and Technology of China, Hefei, 230026, China
Phone: +86-551-63600183
Personal Homepage: http://dslx.ustc.edu.cn/?menu=expert_paper&expertid=3630