热点话题人物,欢迎提交收录!
最优雅的名人百科,欢迎向我们提交收录。
吴雷
2023-05-11 13:39
  • 吴雷
  • 吴雷 - 副教授-南方科技大学-力学与航空航天工程系-个人资料

近期热点

资料介绍

个人简历


教育背景
2001/09-2005/06 浙江师范大学 学士
2005/09-2008/02 浙江师范大学 硕士
2010/11-2013/09 英国Strathclyde大学 博士
工作经历
2019/11-至今 南方科技大学 副教授
2018/12-2019/10 英国Strathclyde大学 高级讲师
2015/04-2018/11 英国Strathclyde大学 Chancellor Fellow &讲师
2013/10-2015/03 英国Strathclyde大学 博士后
2008/09-2010/10 浙江农林大学天目学院 讲师

研究领域


主要从事计算流体动力学及稀薄气体动力学的研究,通过气体动理论建模及发展高效准确的数值模拟方法,理解气体极限情况下的非平衡输运,在航空航天、微机电系统、页岩气流动模拟、固体微尺度传热等方面有重要应用

近期论文


1.Lei Wu*, Jiefang Zhang, Lu Li (2007) Modulational instability and bright solitary wave solution for Bose-Einstein condensates with time-dependent scattering length and harmonic potential. New Journal of Physics 9:69.
2. Lei Wu, Jiefang Zhang, Lu Li, Qing Tian, K Porsezian (2008). Similaritons in nonlinear optical systems. Optics Express 16:6352-6360.
3. Lei Wu*, Lu Li, Jiefang Zhang, Dumitru Mihalache, Boris A. Malomed, Wuming Liu (2010) Exact solutions of the Gross-Pitaevskii equation for stable vortex modes in two-dimensional Bose-Einstein condensates. Physical Review A 81:061805R.
4. Lei Wu, Jianping Meng and Yonghao Zhang (2012) Kinetic modelling of the quantum gases in the normal phase. Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences 468:1799-1823.
5. Lei Wu and Yonghao Zhang (2012) Applicability of the Boltzmann equation for a two-dimensional Fermi gas. Physical Review A 85:045601.
6. Lei Wu, Craig White, Thomas J. Scanlon, Jason M. Reese, Yonghao Zhang (2013) Deterministic numerical solutions of the Boltzmann equation using the fast spectral method. Journal of Computational Physics 250:27-52.
7. Lei Wu, Jason M. Reese, Yonghao Zhang (2014) Solving the Boltzmann equation deterministically by the fast spectral method: application to gas microflows. Journal of Fluid Mechanics 746:53-84.
8. Lei Wu, Jason M. Reese, Yonghao Zhang (2014) Oscillatory rarefied gas flow inside rectangular cavities. Journal of Fluid Mechanics 748:350-367.
9. Lei Wu, Craig White, Thomas J. Scanlon, Jason M. Reese, Yonghao Zhang (2015) A kinetic model of the Boltzmann equation for nonvibrating polyatomic gases. Journal of Fluid Mechanics 763:24-50.
10. Lei Wu*, Jun Zhang, Jason M. Reese, Yonghao Zhang (2015) A fast spectral method for the Boltzmann equation for monatomic gas mixtures. Journal of Computational Physics 298:602-621.
11. Lei Wu*, Haihu Liu, Yonghao Zhang, Jason M. Reese (2015) Influence of inter-molecular potentials on rarefied gas flows: Fast spectral solutions of the Boltzmann equation. Physics of Fluids 27:082002.
12. Lei Wu*, Yonghao Zhang, Jason M. Reese (2015) Fast spectral solution of the generalized Enskog equation for dense gases. Journal of Computational Physics 303:66-79.
13. Lei Wu*, Haihu Liu, Jason M. Reese, Yonghao Zhang (2016) Nonequilibrium dynamics of dense gas under tight confinement. Journal of Fluid Mechanics 794:252- 266.
14. Lei Wu*, Jun Zhang, Haihu Liu, Yonghao Zhang, Jason M. Reese (2017) A fast iterative scheme for the linearized Boltzmann equation. Journal of Computational Physics 338:431-451.
15. Lei Wu*, Minh Tuan Ho, Lefki Germanou, Xiaojun Gu, Chang Liu, Kun Xu, Yonghao Zhang (2017) On the apparent permeability of porous media in rarefied gas flows. Journal of Fluid Mechanics 822:398-417.
16. Lei Wu*, Henning Struchtrup (2017) Assessment and development of the gas kinetic boundary condition for the Boltzmann equation. Journal of Fluid Mechanics 823:511-537.
17. Wei Su, Peng Wang, Haihu Liu, Lei Wu* (2019) Accurate and efficient computation of the Boltzmann equation for Couette flow: influence of intermolecular potentials on Knudsen layer function and viscous slip coefficient. Journal of Computational Physics 378: 573-590.
18. Wei Su, Peng Wang, Yonghao Zhang, Lei Wu* (2019) A high-order hybridizable discontinuous Galerkin method with fast convergence to steady-state solutions of the gas kinetic equation. Journal of Computational Physics 376: 973-991.
19. Lei Wu (2019) A fast spectral method for the Boltzmann collision operator for quantum gas mixtures: homogeneous relaxation and transport coefficients. Journal of Computational Physics 399:108924.

相关热点

扫码添加好友