SHI
Shuzhe Assistant Professor
Tel:010-62783163
Fax:010-62781604
E-mail address: shuzhe-shi@tsinghua.edu.cn
Address:Department of Physics, Tsinghua University, W202 Physics Building,Beijing 100084
Career Development
Academic Training:
2008/09-2012/07 Tsinghua University B.Sc. in physics, w/Prof. Pengfei Zhuang
2012/09-2023/07 Shanghai Institute of Applied Physics,CAS M.Sc. in physics, w/Prof. Pengfei Zhuang
2015/08-2018/07 Indiana University, Bloomington Ph.D. in physics, w/Prof. Jinfeng Liao
Employment History:
2018/10-2021/09 McGill University Postdoctoral Fellow, w/Prof. Charles Gale and Sangyong Jeon
2021/09-2023/04 Stony Brook University Postdoctoral Research Associate,, w/Prof. Dmitri Kharzeev and Derek Teaney
2023/04-present Tsinghua University Assistant Professor
Research Statement
Prof. Shi's research focuses on different phenomenologies in heavy-ion collisions, which employs not only traditional analytical and numerical methods but also new techniques such as machine learning and quantum computation. Specific physics aspects are listed as follows.
1. Collective motion of the hot medium created in heavy-ion collisions;
2. Chiral Magnetic effect in heavy-ion collisions;
3. Spin polarization induced by rotation;
4. Static and dynamic properties of heavy quark in quark-gluon plasma;
5. Jet quenching in quark gluon plasma.
Selected Journal Publications and Patents(*corresponding author)
As of April 2023, Prof. Shi has published 42 papers in peer-reviewed journals(conference proceeding excluded), with a complete list can be found in (http://inspirehep.net/author/profile/Shu.Zhe.Shi.1). Here lists some selected papers.
- K. Zhou, L. Wang, L. Pang, and S. Shi*, “Exploring QCD matter in extreme conditions with Machine
Learning”, arXiv:2303.15136 [hep-ph].
- A. Florio, D. Frenklakh, K. Ideka, D. Kharzeev, V. Korepin, S. Shi*, and K. Yu, “Real-time non-perturbative dynamics of jet production: quantum entanglement and vacuum modification”, arXiv:2301.11991.
- S. Shi, H. Zhang, D. Hou, and J. Liao, “Signatures of Chiral Magnetic Effect in the Collisions of Isobars”,
Phys.Rev.Lett. 125 (2020) 242301, arXiv:1910.14010.
- D. E. Kharzeev, J. Liao, and S. Shi*, “Implications of the isobar run results for chiral magnetic effect in
heavy ion collisions”, Phys.Rev.C 106, (2022) L051903(Letter), arXiv:2205.00120.
- M. Buzzegoli, D. E. Kharzeev, Y.-C. Liu, S. Shi*, S. A. Voloshin, and H.-U. Yee, “Shear-induced anomalous transport and charge asymmetry of triangular flow in heavy-ion collisions”, Phys.Rev.C 106, (2022) L051902 (Letter), arXiv:2206.11382.
- S. Shi*, S. Jeon, C. Gale, “Family of New Exact Solutions for Longitudinally Expanding Ideal Fluids”, Phys.Rev.C 105, (2022) L021902 (Letter), arXiv:2201.06670.
- S. Shi*, K. Zhou, J. Zhao, S. Mukherjee, and P. Zhuang, “Heavy Quark Potential in Quark Gluon Plasma: Deep Neural Network meets Lattice Quantum Chromodynamics”, Phys.Rev.D 105, (2022) 1, 014017, arXiv:2105.07862.
- S. Shi*, C. Gale, and S. Jeon, “from Chiral Kinetic Theory to Relativistic Viscous Spin Hydrodynamics”, Phys. Rev. C 103, (2021) 044906, arXiv:2008.08618.
- A. Huang, S. Shi, Y. Jiang, J. Liao, and P. Zhuang, “Complete and Consistent Chiral Transport from Wigner Function Formalism”, Phys.Rev.D 98 (2018) 036010, arXiv:1801.03640.
- S. Shi*, Y. Jiang, E. Lilleskov, and J. Liao, “Anomalous Chiral Transport in Heavy Ion Collisions from Anomalous-Viscous Fluid Dynamics”, Annals Phys. 349 (2018) 50-72, arXiv:1711.02496.
- Y. Jiang, S. Shi, Y. Yin, and J. Liao, “Quantifying Chiral Magnetic Effect from Anomalous-Viscous Fluid Dynamics”, Chin.Phys.C 42 (2018) 1, 011001, arXiv:1611.04586.
