左逢源西安交通大学教师主页管理系统代表性论文中文主页

左逢源

博士生导师

硕士生导师

职称：副教授

教师姓名：左逢源

学历：博士研究生毕业

性别：男

学位：博士

在职信息：在职

所属院系：航天航空学院

学科：航空宇航科学与技术

代表性论文

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代表性论文（按时间排序）

S. Wang, F.Y. Zuo*. Separation criterion in hypersonic swept shock wave/turbulent boundary layer interaction. AIAA Journal. Accept, (2025).

S. Wang, F.Y. Zuo*. Analysis of free interaction theory in swept shock wave/turbulent boundary layer interaction. AIAA Journal. 63(5): 1716-1731, (2025).

F.Y. Zuo*, S. Pirozzoli. Recent progress in conical shock wave/boundary layer interaction with spanwise pressure gradient. Propulsion and Power Research. 13(3): 295-318, (2024). (Invited Paper, Featured on cover)

F.Y. Zuo*, Y. Shen, J. Wei, S. Hu. Reynolds number and Mach number effects on the shock-induced separation. AIAA Journal. 62(4): 1618-1625, (2024).

F.Y. Zuo*, A. Memmolo, S. Pirozzoli. On wall pressure fluctuations in conical shock wave/turbulent boundary layer interaction. Journal of Fluid Mechanics. 967, A3, (2023).

F.Y. Zuo*. Hypersonic conical shock-wave/turbulent-boundary-layer interaction at high Reynolds number. AIAA Journal. 61(9): 3743-3760, (2023).

F.Y. Zuo*. Hypersonic shock wave/turbulent boundary layer interaction over a compression ramp. AIAA Journal. 61(4): 1579-1595, (2023).

F.Y. Zuo*, M. Yu, S. Pirozzoli. Modal analysis of separation bubble unsteadiness in conical shock-wave/turbulent-boundary-layer interaction. AIAA Journal. 60(9): 5123-5135, (2022).

F.Y. Zuo*, J. Wei, S. Hu, S. Pirozzoli. Effects of wall temperature on hypersonic impinging shock wave/turbulent boundary layer interactions. AIAA Journal. 60(9): 5109-5122, (2022).

F.Y. Zuo*, A. Memmolo, S. Pirozzoli. Reynolds-averaged numerical simulations of conical shock-wave/boundary-layer interactions. AIAA Journal. 59(5): 1645-1659, (2021).

F.Y. Zuo*, A. Memmolo, G. Huang, S. Pirozzoli. Direct numerical simulation of conical shock wave-turbulent boundary layer interaction. Journal of Fluid Mechanics. 877: 167-195, (2019). (Featured on cover)

F.Y. Zuo*, S. Mölder. Hypersonic wavecatcher intakes and variable-geometry turbine based combined cycle engines. Progress in Aerospace Sciences. 106: 108-144, (2019). (Invited Review)