Global Hybrid Simulation of Magnetic Reconnection in the Magnetosheath

Global Hybrid Simulation of Magnetic Reconnection in the Magnetosheath

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摘要 A three-dimensional(3-D)global hybrid simulation is carried out for the generation and structure of magnetic reconnection in the magnetosheath due to interaction of an interplanetary Tangential Discontinuity(TD)with the bow shock and magnetosphere.Runs are performed for solar wind TDs possessing diFFerent initial half-widths.As the TD propagates through the bow shock toward the magnetopause,it is greatly narrowed by a two-step compression processes,a "shock compression" followed by a subsequent "convective compression".In cases with a relatively thin solar wind TD,3-D patchy reconnection is initiated in the transmitted TD,forming magnetosheath flux ropes.Multiple components of ion particles are present in the velocity distribution in the magnetosheath merging,accompanied by ion heating.For cases with a relatively wide initial TD,a dominant single X-line appears in the subsolar magnetosheath after the transmitted TD is narrowed.A shock analysis is performed for the detailed structure of magnetic reconnection in the magnetosheath.Rotational Discontinuity(RD)/TimeDependent Intermediate Shock(TDIS)are found to dominate the reconnection layer,which and some weak slow shocks are responsible for the ion heating and acceleration. A three-dimensional （3-D） global hybrid simulation is carried out for the generation and structure of magnetic reconnection in the magnetosheath due to interaction of an interplanetary Tangential Discontinuity （TD） with the bow shock and magnetosphere. Runs are performed for solar wind TDs possessing different initial half-widths. As the TD propagates through the bow shock toward the magnetopause, it is greatly narrowed by a two-step compression processes, a ＂shock compression＂ followed by a subsequent ＂convective compression＂. In cases with a relatively thin solar wind TD, 3-D patchy reconnection is initiated in the transmitted TD, forming magnetosheath flux ropes. Multiple components of ion particles are present in the velocity distribution in the magnetosheath merging, accompanied by ion heating. For cases with a relatively wide initial TD, a dominant single X-line appears in the subsolar magnetosheath after the transmitted TD is narrowed. A shock analysis is performed for the detailed structure of magnetic reconnection in the magnetosheath. Rotational Discontinuity （RD）/Time- Dependent Intermediate Shock （TDIS） are found to dominate the reconnection layer, which and some weak slow shocks are responsible for the ion heating and acceleration.

作者 Pang Ye Lin Yu Deng Xiaohua

机构地区 Institute of Space Science and Teehology Physics Department Department of Space Physics

出处《空间科学学报》 CAS CSCD 北大核心 2010年第4期333-342,共10页 Chinese Journal of Space Science

基金 Supported by NSF grant ATM-0646442 to Auburn University and the National Natural Science Foundation of China(NSFC) grant 40640420563 to Wuhan University

关键词混合仿真磁重联磁鞘离子加热压缩过程磁层顶 TDI 相互作用 Magnetic reconnection, Hybrid simulation, Solar wind discontinuity

分类号 P182.52 [天文地球—天文学] TP391.9 [自动化与计算机技术—计算机应用技术]

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