mhd -粒子框架下辐射带波粒相互作用的模拟

IF 2.6 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Frontiers in Astronomy and Space Sciences Pub Date : 2023-09-26 DOI:10.3389/fspas.2023.1239160
Anthony A. Chan, Scot R. Elkington, William J. Longley, Suhail A. Aldhurais, Shah S. Alam, Jay M. Albert, Allison N. Jaynes, David M. Malaspina, Qianli Ma, Wen Li
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引用次数: 1

摘要

在本文中,我们描述了K2,这是一个全面的地球辐射带模拟模型,包括广泛的相关物理过程。全球MHD模拟与导向中心测试粒子方法相结合,模拟了自一致MHD场中与超低频(ULF)波、亚风暴注入、对流输运、漂移壳分裂、漂移轨道分岔和磁层顶阴影的相互作用。通过将随机微分方程(SDE)方法引入到mhd粒子框架中,对回旋加速器尺度相互作用引起的局部加速度和俯仰角散射进行了模拟。sde是由特定事件的反射平均能量和俯仰角扩散系数驱动的。本文基于2013年3月17日范艾伦探测器观测到的事件,对简化粒子加速事件中的电子相空间密度进行了模拟,重点展示了K2模型的能力。比较了全球尺度超低频(ULF)波和甚低频(VLF)哨子模式合唱波的相对波粒效应,发现主要的加速度似乎来自后者。我们还表明,同时包含超低频和超低频过程的增强超过了单独的超低频波,表明能量和输运过程的协同组合可能是重要的。
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Simulation of radiation belt wave-particle interactions in an MHD-particle framework
In this paper we describe K2, a comprehensive simulation model of Earth’s radiation belts that includes a wide range of relevant physical processes. Global MHD simulations are combined with guiding-center test-particle methods to model interactions with ultra low-frequency (ULF) waves, substorm injections, convective transport, drift-shell splitting, drift-orbit bifurcations, and magnetopause shadowing, all in self-consistent MHD fields. Simulation of local acceleration and pitch-angle scattering due to cyclotron-scale interactions is incorporated by including stochastic differential equation (SDE) methods in the MHD-particle framework. The SDEs are driven by event-specific bounce-averaged energy and pitch-angle diffusion coefficients. We present simulations of electron phase-space densities during a simplified particle acceleration event based on the 17 March 2013 event observed by the Van Allen Probes, with a focus on demonstrating the capabilities of the K2 model. The relative wave-particle effects of global scale ULF waves and very-low frequency (VLF) whistler-mode chorus waves are compared, and we show that the primary acceleration appears to be from the latter. We also show that the enhancement with both ULF and VLF processes included exceeds that of VLF waves alone, indicating a synergistic combination of energization and transport processes may be important.
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来源期刊
Frontiers in Astronomy and Space Sciences
Frontiers in Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-
CiteScore
3.40
自引率
13.30%
发文量
363
审稿时长
14 weeks
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