Bio

Sheng-Tai Li is currently a Software Engineer at the School of Physics Science and Technology, Central China Normal University, and a Technician at the university's Nuclear Science Computing Center. His primary focus is on the construction and operation of supercomputing centers. Additionally, he conducts research in lattice quantum chromodynamics (LQCD) simulations, with a recent emphasis on high-performance computing applications in LQCD. As an NVIDIA DLI CUDA C++ Instructor, Sheng-Tai Li also offers annual courses on CUDA C++, sharing his expertise in high-performance computing.

Education

2013-2019 Ph.D. in Particle Physics and Nuclear PhysicsfromCentral China Normal University.Thesis:Lattice QCD Study of Chiral Phase Transition in (2+1)-flavor QCD.

2009-2013 Bachelor of Science in PhysicsfromHubei University.

Professional Experience

2021 – present,Softwareengineer at the School of Physics Science and Technology, Central China Normal University. Technician at the Nuclear Science Computing Center of Central China Normal University.

2019-2021Postdoctoral Researcher,Instituteof Modern Physics (IMP)

Recent Publications (5 years)

1. H.-T. Ding, J.-B. Gu, A. Kumar, S.-T.Li and J.-H. Liu, “Baryon Electric Charge Correlation as a Magnetometer of QCD,''Phys. Rev. Lett. 132, no.20, 201903 (2024)

2. H.-T. Ding, S.-T. Li, S. Mukherjee, A.Tomiya, X.-D. Wang and Y. Zhang, “Correlated Dirac Eigenvalues and Axial Anomaly in Chiral Symmetric QCD,” Phys. Rev. Lett. 126, no.8, 082001 (2021)

3. H.-T.Ding, P. Hegde, O. Kaczmarek, et al. [HotQCD], “Chiral Phase Transition Temperature in ( 2+1 )-Flavor QCD,” Phys. Rev. Lett. 123, no.6, 062002 (2019)

4. H.-T. Ding, P. Hegde, F. Karsch, A. Lahiri, S.-T. Li, S. Mukherjee, and P. Petreczky, “Chiral Phase Transition of (2+1)-Flavor QCD,” Nucl. Phys. A 982, 211-214 (2019).

5. HotQCD Collaboration (A. Bazavov, H.-T. Ding, P. Hegde, O. Kaczmarek, F. Karsch, S. Kartik, E. Laermann, A. Lahiri, R. Lata, S.-T. Li, S. Mukherjee, H. Ohno, P. Petreczky, H. Sandmeyer, C. Schmidt, S. Sharma, and P. Steinbrecher), “Chiral Crossover in QCD at Zero and Non-Zero Chemical Potentials,” Phys. Lett. B 795, 15-21 (2019).

Honors and Awards

1. Second Prize Winner of the "Morning Light Cup" by the High Energy Physics Division of the Chinese Physical Society.

2. Certified NVIDIA DLI CUDA C++ Instructor.