2004.9-2009.7 理学博士,vnsc威尼斯城官方网站
2000.9-2004.7 理学学士,北京大学力学与工程科学系



2017.05 至今:vnsc威尼斯城官方网站力学与工程科学系
2013.05 至2017.04:荷兰FOM基金会,荷兰Twente大学,博士后
2011.03 至 2013.04:vnsc威尼斯城官方网站应用物理于技术中心,“培源学者”博士后
2009.07 至 2011.02:北京大学湍流与复杂系统国家重点实验室,科研人员







  1. S.F. Zou and Y.T. Yang. Realizing the ultimate scaling in convection turbulence by spatially decoupling the thermal and viscous boundary layers. Journal of Fluid Mechanics Rapids, 919, R3. 2021.

  2. Y.T. Yang, W.Y. Chen, R. Verzicco, and D. Lohse. Multiple states and transport properties of double-diffusive convection turbulence. PNAS, 117(26), 14676-14681. 2020.

  3. Y.T. Yang, R. Verzicco, D. Lohse, and R.J.A.M. Stevens. What rotation rate maximizes heat transport in rotating Rayleigh-Be?nard convection with Prandtl number larger than one? Physical Review Fluids, 5, 053501. 2020.

  4. Y.T. Yang. Double diffusive convection in the finger regime for different Prandtl and Schmidt numbers Acta Mechanica Sinica, 36, 797-804. (Cover of the issue). 2020.

  5. Y.T. Yang, R. Verzicco, and D. Lohse. Two-scalar turbulent Rayleigh-Be?nard convection: numerical simulations and unifying theory. Journal of Fluid Mechanics, 848, 648-659. 2018.

  6. K.L. Chong*, Y.T. Yang*, S.D. Huang, J.Q. Zhong, R.J.A.M. Stevens, R. Verzicco, D. Lohse, and K.Q. Xia. Confined Rayleigh-Benard, rotating Rayleigh-Benard, and double convection: A unifying view on turbulent transport enhancement through coherent structure manipulation. Physical Review Letters, vol. 119, 064501. 2017. (*Co-first authors)

  7. Y.T. Yang, R. Verzicco, and D. Lohse. Vertically Bounded Double Diffusive Convection in the Finger Regime: Comparing No-Slip versus Free-Slip Boundary Conditions. Physical Review Letters, vol. 117, 184501. 2016. (Cover of the issue)

  8. Y.T. Yang, R. Verzicco, and D. Lohse. Scaling laws and flow structures of double diffusive convection in the finger regime. Journal of Fluid Mechanics, vol. 802, pp. 667-689. 2016

  9. Y.T. Yang, R. Verzicco, and D. Lohse. From convection rolls to finger convection in double-diffusive turbulence.  Proceedings of the National Academy of Sciences of the United States of America, vol. 113, pp. 69-73. 2016.

  10. Y.T. Yang, J.C. Wang, Y.P. Shi, Z.L. Xiao, X.T. He, and S.Y. Chen. Intermittency caused by compressibility: A Lagrangian study.  Journal of Fluid Mechanics Rapids, vol. 786, R6. 2016.


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