Storm time polar cap expansion: interplanetary magnetic field clock angle dependence

IF 1.7 4区 地球科学 Q3 ASTRONOMY & ASTROPHYSICS
B. Tulegenov, J. Raeder, W. Cramer, B. Ferdousi, T. Fuller‐Rowell, N. Maruyama, R. Strangeway
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引用次数: 3

Abstract

Abstract. It is well known that the polar cap, delineated by the open–closed field line boundary (OCB), responds to changes in the interplanetary magnetic field (IMF). In general, the boundary moves equatorward when the IMF turns southward and contracts poleward when the IMF turns northward. However, observations of the OCB are spotty and limited in local time, making more detailed studies of its IMF dependence difficult. Here, we simulate five solar storm periods with the coupled model consisting of the Open Geospace General Circulation Model (OpenGGCM) coupled with the Coupled Thermosphere Ionosphere Model (CTIM) and the Rice Convection Model (RCM), i.e., the OpenGGCM-CTIM-RCM, to estimate the location and dynamics of the OCB. For these events, polar cap boundary location observations are also obtained from Defense Meteorological Satellite Program (DMSP) precipitation spectrograms and compared with the model output. There is a large scatter in the DMSP observations and in the model output. Although the model does not predict the OCB with high fidelity for every observation, it does reproduce the general trend as a function of IMF clock angle. On average, the model overestimates the latitude of the open–closed field line boundary by 1.61∘. Additional analysis of the simulated polar cap boundary dynamics across all local times shows that the MLT of the largest polar cap expansion closely correlates with the IMF clock angle, that the strongest correlation occurs when the IMF is southward, that during strong southward IMF the polar cap shifts sunward, and that the polar cap rapidly contracts at all local times when the IMF turns northward.
风暴时间极帽扩展:行星际磁场时钟角依赖
摘要众所周知,由开闭场线边界(OCB)划定的极帽对行星际磁场(IMF)的变化作出反应。一般来说,当IMF向南转动时,边界向赤道方向移动;当IMF向北转动时,边界向赤道方向收缩。然而,对OCB的观察是零星的,而且当地时间有限,因此很难对其对IMF的依赖进行更详细的研究。本文采用OpenGeospace大气环流模式(OpenGGCM)、耦合热层电离层模式(CTIM)和Rice对流模式(RCM)组成的耦合模式,模拟了5个太阳风暴周期。, OpenGGCM-CTIM-RCM,来估计OCB的位置和动态。对于这些事件,还从国防气象卫星计划(DMSP)降水谱图中获得了极帽边界位置观测,并与模式输出进行了比较。DMSP观测值和模型输出中存在很大的散射。虽然该模型不能高保真地预测每次观测的OCB,但它确实再现了作为IMF时钟角函数的总趋势。平均而言,该模型将开合场线边界的纬度高估了1.61°。对模拟的极帽边界动力学在各个地方时的进一步分析表明,最大极帽扩张的MLT与IMF时钟角密切相关,当IMF向南移动时,相关性最强,当IMF向南移动时,极帽向太阳移动,并且在所有地方时,当IMF向北移动时,极帽迅速收缩。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Annales Geophysicae
Annales Geophysicae 地学-地球科学综合
CiteScore
4.30
自引率
0.00%
发文量
42
审稿时长
2 months
期刊介绍: Annales Geophysicae (ANGEO) is a not-for-profit international multi- and inter-disciplinary scientific open-access journal in the field of solar–terrestrial and planetary sciences. ANGEO publishes original articles and short communications (letters) on research of the Sun–Earth system, including the science of space weather, solar–terrestrial plasma physics, the Earth''s ionosphere and atmosphere, the magnetosphere, and the study of planets and planetary systems, the interaction between the different spheres of a planet, and the interaction across the planetary system. Topics range from space weathering, planetary magnetic field, and planetary interior and surface dynamics to the formation and evolution of planetary systems.
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