電子スケール現象に囲まれたMHDスケールの渦の崩壊

*林大輔[1], 藤本正樹[1], 篠原育[2]

東京工業大学　地球惑星科学科[1]
宇宙科学研究所[2]

Decay of MHD-scale vortices mediated by parasitic electron dynamics

*Daisuke Hayashi[1] ,Masaki Fujimoto [1],Iku Shinohara [2]
Department of Earth and Planetary Sciences, Tokyo Institute of Technology[1]
Institute of Space and Astronautical Science[2]

The two fluid model that takes the finite electron inertia effects into account by modifying the induction equation from Hall-MHD equations is useful in studying large scale MHD scale dynamics while resolving the electron scales. In this study, we have performed two-dimensional simulations of the Kelvin-Helmholtz instability at the magnetopause-like situation. The instability grows and the highly rolled-up vortex appears in the non-linear stage as in MHD calculations. What is striking, however, is that, in the presence of electron inertia effects, smaller vortices grow within the MHD scale vortex and eventually the MHD vortex decays. The implication of the results to the plasma transport across the tail-flank is discussed.

電子スケール現象に囲まれたMHDスケールの渦の崩壊

*林 大輔[1], 藤本 正樹[1], 篠原 育[2]

Decay of MHD-scale vortices mediated by parasitic electron dynamics

*Daisuke Hayashi[1] ,Masaki Fujimoto [1],Iku Shinohara [2] Department of Earth and Planetary Sciences, Tokyo Institute of Technology[1] Institute of Space and Astronautical Science[2]

*林大輔[1], 藤本正樹[1], 篠原育[2]

*Daisuke Hayashi[1] ,Masaki Fujimoto [1],Iku Shinohara [2]
Department of Earth and Planetary Sciences, Tokyo Institute of Technology[1]
Institute of Space and Astronautical Science[2]