研究方向    

  •  湍流数值模拟和理论    

  •  计算流体力学    

  •  磁流体和太阳风    

工作经历    

  •  2020年10月 ~     今               南方科技大学 / 力学与航空航天工程系    教授   

  •  2016年01月 ~ 2020年10月    南方科技大学 / 力学与航空航天工程系    副教授   

  •  2015年10月 ~ 2015年12月    南方科技大学 / 物理系    副教授   

  •  2011年10月 ~ 2015年10月    特拉华大学 / 物理与天文系    Research Associate III   

  •  2008年09月 ~ 2011年09月    特拉华大学 / 物理与天文系     博士后   

  •  2002年09月 ~ 2008年09月    约翰霍普金斯大学 / 机械工程系    Research Assistant
教育经历    

  •  2004年09月 ~ 2009年07月    约翰霍普金斯大学 / 机械工程系    博士    

  •  2002年09月 ~ 2004年07月    约翰霍普金斯大学 / 机械工程系     硕士    

  •  1998年09月 ~ 2002年07月    清华大学 / 工程力学系    学士

代表论文    

• M. Wan, W. H. Matthaeus, V. Roytershteyn, T. N. Parashar, P. Wu, and H. Karimabadi, “Intermittency, coherent structures and dissipation in plasma turbulence”, Physics of Plasmas, 23(042307), 2016.

• M. Wan, W. H. Matthaeus, V. Roytershteyn, H. Karimabadi, T. Parashar, P. Wu and M. Shay, “Intermittent dissipation and heating in 3D kinetic plasma turbulence”, Physical Review Letters, 114(175002), 2015.

• M. Wan, A. F. Rappazzo, W. H. Matthaeus, S. Servidio, and S. Oughton, “Dissipation and reconnection in boundary-driven reduced magnetohydrodynamics”, Astrophysical Journal, 797(63), 2014.

• P. Wu, M. Wan, W. H. Matthaeus, M. A. Shay, and M. Swisdak, “von Karman energy decay and heating of protons and electrons in a kinetic plasma”, Physical Review Letteers, 111(121105), 2013.

• H. Karimabadi, V. Roytershteyn, M. Wan, W. H. Matthaeus, W. Daughton, P. Wu, M. Shay, B. Loring, J. Borovsky, E. L. Leonardis, S. Chapman, and T. K. M. Nakamura, “Coherent structures, intermittent turbulence and dissipation in high-temperature plasmas”, Physics of Plasmas, 20(012303), 2013.

• M. Wan, W. H. Matthaeus, H. Karimabadi, V. Roytershteyn, M. Shay, P. Wu,  W. Daughton, B. Loring, and S. C. Chapman, “Intermittent dissipation at   kinetic scales in collisionless plasma turbulence”, Physical Review Letters, 109(195001), 2012.

• K. T. Osman, W. H. Matthaeus, M. Wan, and A. F. Rappazzo, “Intermittency and local heating in the solar wind”, Physical Review Letters, 108(261102), 2012.

• M. Wan, S. Oughton, S. Servidio, and W. H. Matthaeus, “von Karman self-preservation hypothesis for MHD turbulence and its consequences for universality”, Journal of Fluid Mechanics, 697(296), 2012.

• M. Wan, K. T. Osman, W. H. Matthaeus, and S.  Oughton, “Investigation of Intermittency in MHD and Solar Wind Turbulence: Scale-Dependent Kurtosis”, Astrophysical Journal, 744(171), 2012.

• K. T. Osman, M. Wan, W. H. Matthaeus, J. M. Weygand, and S. Dasso, “Anisotropic third-moment estimates of the energy cascade in solar wind turbulence using multi-spacecraft data.” Physical Review Letters, 107(165001), 2011.

• M. Wan, S. Oughton, S. Servidio, and W. H. Matthaeus, “On the accuracy of simulations of turbulence”, Physics of Plasmas, 17(082308), 2010.

• M. Wan, Z. Xiao, C. Meneveau, G. L. Eyink and S. Chen. “Dissipation-energy correlations as evidence supporting the turbulent Lagrangian energy cascade”, Physics of Fluids, 22(061702), 2010.

• M. Wan, S. Servidio, S. Oughton, and W. H. Matthaeus, “The third-order law for increments in magnetohydrodynamic turbulence with constant shear”. Physics of Plasmas, 16(090703), 2009.

• M. Wan, S. Oughton, S. Servidio, and W. H. Matthaeus, “Generation of non-Gaussian statistics and coherent structures in ideal magnetohydrodynamics”. Physics of Plasmas, 16(080703), 2009.

• Z. Xiao, M. Wan, S. Chen, and G. L. Eyink. “Physical mechanism of the inverse energy cascade of two-dimensional turbulence: a numerical investigation.” Journal of Fluid Mechanics, 619(1), 2009.

• S. Chen, G. L. Eyink, M. Wan, and Z. Xiao. “Is the Kelvin theorem valid for high Reynolds number turbulence?” Physical Review Letters. 97(14). 2006.

• S. Chen, R. E. Ecke, G. L. Eyink, M. Rivera, M. Wan, and Z. Xiao. “Physical mechanism of the two-dimensional inverse energy cascade”. Physical Review Letters. 96(8). 2006.