教育背景
2012-2017 博士,美国德州农工大学(Texas A&M University)
2008-2012 学士,华中科技大学
工作经历
2022-至今 长聘教轨副教授,上海交通大学物理与天文学院
2020-2021 博士后,意大利卡塔尼亚大学(University of Catania)
2018-2020 博士后,意大利南方国家实验室(INFN, Laboratori Nazionali del Sud)
2018 博士后,美国德州农工大学(Texas A&M University)
Quantum Chromodynamics (QCD) describes the strong interaction between quarks and gluons, which are the elementary particles in the Standard Model of physics making up composite hadrons such as proton and neutron. One of the basic properties of QCD is called color confinement, which says quarks and gluons will be confined into hadrons at low temperature or low baryon chemical potential. However, at high temperature or high baryon chemical potential, which can be generated by the relativistic heavy ion collision experiments performed at the facilities at Large Hadron Collider (LHC) or Relativistic Heavy Ion Collider (RHIC), quarks and gluons will become liberated and form a new kind of matter called Quark-gluon Plasma (QGP).
My primary interests lie in using QGP as the laboratory to study the basic properties of QCD, such as the phase diagram of QCD, the existence of Parity (P) or Charge-Parity (CP) violation of QCD and the anomalous transport phenomena. This task is certainly difficult due to the complicated evolution and the strong interaction of QGP, and we thus need the development of both the theoretical methodology and the advanced numerical method.
1. Y.F. Sun, V. Greco and X.N. Wang
Modification of Z0 leptonic invariant mass in ultrarelativistic heavy ion collisions as a measure of the electromagnetic field
Phys. Lett. B 827, 136962 (2022)
2. Y.F. Sun, S. Plumari and V. Greco
Probing the electromagnetic fields in ultra-relativistic collisions with leptons from Z0 decay and charmed mesons
Phys. Lett. B 816, 136271 (2021)
3. S.Y.F. Liu, Y.F. Sun and C.M. Ko
Spin polarizations in a covariant Angular-Momentum -Conserved chiral transport model
Phys. Rev. Lett. 125(6), 062301 (2020)
4. Y.F. Sun, S. Plumari and V. Greco
Study of collective anisotropies v2 and v3 and their fluctuations in pA collisions at LHC within a relativistic transport approach
Eur. Phys. J. C 80 1, 16 (2020)
5. Y.F. Sun, G. Coci, S.K. Das et al.
Impact of Glasma on heavy quark observables in nucleus-nucleus collisions at LHC
Phys. Lett. B 798, 134933 (2019)
6. Y.F. Sun and C.M. Ko
Azimuthal angle dependence of the longitudinal spin polarization in relativistic heavy ion collisions
Phys. Rev. C 99(1), 011903 (R) (2019)
7. Y.F. Sun and C.M. Ko
Probing the topological charge in QCD matter via multiplicity up-down asymmetry
Phys. Lett. B 789, 228-232 (2019)
8. Y.F. Sun and C.M. Ko
Λ hyperon polarization in relativistic heavy ion collisions from a chiral kinetic approach
Phys. Rev. C 96(2), 024906 (2017)
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