物理学报2012,Vol.61Issue(21):567-573,7.
赤道面磁层顶位形的磁流体力学模拟研究
An MHD simulation study on the location and shape of magnetopause in equatorial plane
摘要
Abstract
The determination of the varying position and shape of magnetopause is one of the important Gordian knots in geophysics and space physics. According to the solar wind-magnetosphere-ionosphere coupling global magnetohydrodynamic (MHD) simulation, and with the maximum electric current criterion, we study the position and shape of the magnetopause under several solar wind dynamic pressure (Dp) and interplanetary magnetic field conditions. The simulation results show that the subsolar position (r0) of the magnetopause is controlled mainly by Dp with the significant decrease of r0 as Dp increases. At a certain Dp, when southword Bz (Bz〈0) decreases to zero, then shifts to northward (Bz〉0) and increases, the subsolar position r0 keeps increasing. For all cases studie here, the flare angle (φ) of the magnetopause experiences small changes. This provide an evidence for the structural self-similarity of magnetopause in equatorial plane. Compared with the empirical low-latitude magnetopause model of Shue98, MHD simulation can reproduce the dependence of the subsolar point r0 on Dp, while the saturation effect of r0 varying with Bz in empirical model is represented only with slow solar wind. As to the flare angle φ, although the difference between MHD simulation and empirical model is less than 2.5°, the variation of φ with Bz in MHD simulations is nonlinear and different from the linear trend in empirical model.关键词
赤道面磁层顶/位置结构特征/磁流体力学模拟Key words
equatorial magnetopause/location and shape/MHD simulation分类
天文与地球科学引用本文复制引用
李传起,顾斌,母丽丽,张青梅,陈美红,蒋勇..赤道面磁层顶位形的磁流体力学模拟研究[J].物理学报,2012,61(21):567-573,7.基金项目
国家自然科学基金(批准号:41174165,11105075)资助的课题. ()
