Contact Information:

Email: sk.wang@pku.edu.cn

Tel: +86-15712805071

Homepage: https://en.coe.pku.edu.cn/faculty/facultyaz/921311.htm

Work experience:

2020.02-Now College of Engineering, Peking University, Assistant Professor

2016.10-2020.02-High-Temperature Gasdynamics Laboratory, Stanford University, Postdoctoral Scholar

Education:

2012.06-2017.01    Ph.D. in Mechanical Engineering, Stanford University, Ph.D. Minor in Electrical Engineering, Stanford University   

2010.09-2012.06     M.S. in Mechanical Engineering Stanford University

2006.09-2010.06     B.S. in Mechanical Engineering Peking University

Research Areas:

Laser Diagnostics, Experimental Fluid Mechanics, Combustion

Interested Research Areas in CAPT：

Precision Laser Diagnostics for Nonequilibrium Gases
High-Enthalpy Flow and Shock Wave Dynamics
Reaction Kinetics of Electronically Excited Species

Selected Publications：

1. Z. Yan, S. Wang*, StaR-LIF: State-resolved laser-induced fluorescence modeling for diatomic molecules, Journal of Quantitative Spectroscopy and Radiative Transfer, DOI: 10.1016/j.jqsrt.2024.109230
2. H. Gong, D. Zhao, S. Wang*, A hybrid high-speed Schlieren and laser absorption diagnostic for underexpanded supersonic jets under rapid backpressure variation, Proceedings of the 34th International Symposium on Shock Waves, 2024
3. S. Wang*, Y. Ding, J. Miao, R.K. Hanson, Shock tube and multi-species laser absorption measurements of rate constants for methanol pyrolysis, Proceedings of the Combustion Institute, 2023; 39(1): 755-763.
4. Y. Li*, S. Wang, C.L. Strand, R.K. Hanson, Development of a Stark shift measurement technique using excited-state oxygen atoms to determine electron number density in shock heated O2/Ar above 10000 K, Plasma Sources Science and Technology, 2021; 30 (2): 025007
5. Y. Li*, S. Wang, C.L. Strand, R.K. Hanson, 2020. Two-temperature collisional-radiative modeling of partially ionized O2–Ar mixtures over 8000–10,000 K behind reflected shock waves. The Journal of Physical Chemistry A, 2020;124(19):3687-3697.
6. Y. Ding, S. Wang*, R.K. Hanson, Sensitive and interference-immune formaldehyde diagnostic for high-temperature reacting gases using two-color laser absorption near 5.6 µm. Combustion and Flame, 2020; 213: 194-201.
7. S. Wang*, D.F. Davidson, R.K. Hanson, Shock tube techniques for kinetic target data to improve reaction models, in Mathematical Modelling of Gas-Phase Complex Reaction Systems: Pyrolysis and Combustion, Elsevier, 2019
8. S. Wang*, R.K. Hanson, Quantitative 2-D OH thermometry using spectrally resolved planar laser-induced fluorescence, Optics Letters, 2019:44 (3); 578-581
9. S. Wang*, D.F. Davidson, R.K. Hanson, Shock tube measurements of OH time-histories in benzene, toluene, ethylbenzene and xylene oxidation, Proceedings of the Combustion Institute. 2019;37(1):163-170.
10. S. Wang*, R.K. Hanson, Ultra-sensitive spectroscopy of OH radical in high-temperature transient reactions. Optics Letters, 2018: 43(15), pp.3518-3521.