Last update: 2026/01
代表著作:( * 表示通讯作者)
1. Wang, P.*, McWilliams, J. C., Yuan, J., & Liang, J.-H. (2025). Langmuir mixing schemes based on a modified K-profile parameterization. Journal of Advances in Modeling Earth Systems, 17, e2024MS004729.
2. Wang, P.*, McWilliams, J.C., Wang, D., & Yi, D.L. (2023). Conservative surface wave effects on a wind-driven coastal upwelling system. Journal of Physical Oceanography, 53(1), 37-55.
3. Wang, P.*, McWilliams, J.C., & Uchiyama, Y. (2021). A nearshore oceanic front induced by wave streaming. Journal of Physical Oceanography, 51(6), 1967-1984.
4. Wang, P.*, McWilliams, J.C., Uchiyama, Y., Chekroun, M.D., & Yi, D.L. (2020). Effects of wave streaming and wave variations on nearshore wave-driven circulation. Journal of Physical Oceanography, 50(10), 3025-3041.
5. Wang, P.*, & Özgökmen, T.M. (2018). Langmuir circulation with explicit surface waves from moving-mesh modelling. Geophysical Research Letters, 45(1), 216-226.
其他著作:
6. Pratt, L.J., Rypina, I.I., Özgökmen, T.M., Wang, P., Childs, H., & Bebieva, Y. (2014). Chaotic advection in a steady, three-dimensional, Ekman-driven eddy. Journal of Fluid Mechanics, 738, 143.
7. Wang, P.*, & Özgökmen, T.M. (2015). How do hydrodynamic instabilities affect 3D transport in geophysical vortices? Ocean Modelling, 87, 48-66.
8. Rypina, I., Pratt, L.J., Wang, P., Özgökmen, T.M., & Mezić, I. (2015). Resonance phenomena in a time-dependent, three-dimensional model of an idealized eddy. Chaos: An Interdisciplinary Journal of Nonlinear Science, 25(8), 087401.
9. Wang, P.*, & Özgökmen, T.M. (2016). Spiral inertial waves radiated from geophysical vortices. Ocean Modelling, 99, 22-42.
10. Wang, P. (2016). Material dispersion by ocean eddies and waves. University of Miami. Ph.D. Dissertation.
11. Wang, P.*, Özgökmen, T. M., & Haza, A. C. (2018). Material dispersion by oceanic internal waves. Environmental Fluid Mechanics, 18(1), 149-171.
12. Li, Q., Reichl, B.G., Fox‐Kemper, B., Adcroft, A.J., Belcher, S.E., Danabasoglu, G., Grant, A.L., Griffies, S.M., Hallberg, R., Hara, T., Harcourt, R.R., Kukulka, T., Large, W.G., McWilliams, J.C., Pearson, B.C., Sullivan, P.P., van Roekel, L.P., Wang, P., & Zheng, Z. (2019). Comparing ocean surface boundary vertical mixing schemes including Langmuir turbulence. Journal of Advances in Modeling Earth Systems, 11, 3545– 3592.
13. Brett, G., Pratt, L., Rypina, I., & Wang, P. (2019). Competition between chaotic advection and diffusion: stirring and mixing in a 3-D eddy model. Nonlinear Process in Geophysics, 26(2), 37-60.
14. Zhai, L., Wang, X., Wang, P., Miralles‐Wilhelm, F., & Sternberg, L.D.S.L. (2019). Vegetation and location of water inflow affect evaporation in a subtropical wetland as indicated by the deuterium excess method. Ecohydrology, 12(4), e2082.
15. Yi, D.L., & Wang, P.* (2024). Global wavenumber spectra of sea surface salinity in the mesoscale range using satellite observations. Remote Sensing, 16(10), 1753.
16. Yi, D.L., Fan, K., He, S., & Wang, P. (2024). Sea-ice-loss slowdown modulates the sea surface salinification in the Kara-Laptev Seas since the 2008 summer. Environmental Research Letters, 19(8), 084022.
17. Yu, X., Yi, D. L., & Wang, P.* (2025). Reconstruction of Three-Dimensional Temperature and Salinity in the Equatorial Ocean with Deep-Learning. Remote Sensing, 17(12), 2005.
18. Wu, J., & Wang, P.* (2025). Langmuir Turbulence Effects on Coastal Surface Waves. Journal of Marine Science and Engineering, 13(6), 1067.
19. Yu, X., Yi, D. L., & Wang, P.* (2025). Enhancing Ocean Temperature and Salinity Reconstruction with Deep Learning: The Role of Surface Waves. Journal of Marine Science and Engineering, 13(5), 910.
20. Wu, J., & Wang, P.* (2025). Bottom Wave Streaming Intensifies a Nearshore Upwelling Front. Estuarine, Coastal and Shelf Science, 109410.
21. Wu, J., & Wang, P.* (2025). How do conservative surface wave effects influence a coastal upwelling front? Journal of Geophysical Research: Oceans, 130, e2024JC021404.
22. Yu, X., Yi, D. L., & Wang, P.* (2025). Predicting Surface Stokes Drift with Deep Learning. Water, 17(7), 983.
23. Peng, Z., & Wang, P.* (2025). Surface Wave Effects on Storm Surge: A Case Study of Typhoon Doksuri (2023). Journal of Marine Science and Engineering, 13(3), 478.
24. Yu, X., Wang, P.*, Yang, G., Lu, W. (2026). Ocean currents and bathymetric effects on deep learning-driven surface wave predictions: A case study in the South China Sea. Ocean Engineering, 347, 124013.
25. Peng, C., Wang, P.*, Wang, D.* (2026). Surface wave-induced modulation of submesoscale fronts: A process governed by model resolution. Dynamics of Atmospheres and Oceans, 113, 101645.
26. Peng, Z., Wu, J., Wang, P.* (2026). How does wave-enhanced bottom stress affect typhoon-induced storm surge. Ocean Modelling, 200, 102684.