Finding reconnection lines and flux rope axes via local coordinates in global ion-kinetic magnetospheric simulations

IF 1.7 4区地球科学 Q3 ASTRONOMY & ASTROPHYSICS Annales Geophysicae Pub Date : 2024-05-16 DOI:10.5194/angeo-42-145-2024

M. Alho, G. Cozzani, I. Zaitsev, F. Kebede, U. Ganse, M. Battarbee, M. Bussov, M. Dubart, S. Hoilijoki, Leo Kotipalo, K. Papadakis, Y. Pfau‐Kempf, J. Suni, V. Tarvus, A. Workayehu, Hongyang Zhou, M. Palmroth

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Abstract

Abstract. Magnetic reconnection is a crucially important process for energy conversion in plasma physics, with the substorm cycle of Earth's magnetosphere and solar flares being prime examples. While 2D models have been widely applied to study reconnection, investigating reconnection in 3D is still, in many aspects, an open problem. Finding sites of magnetic reconnection in a 3D setting is not a trivial task, with several approaches, from topological skeletons to Lorentz transformations, having been proposed to tackle the issue. This work presents a complementary method for quasi-2D structures in 3D settings by noting that the magnetic field structures near reconnection lines exhibit 2D features that can be identified in a suitably chosen local coordinate system. We present applications of this method to a hybrid-Vlasov Vlasiator simulation of Earth's magnetosphere, showing the complex magnetic topologies created by reconnection for simulations dominated by quasi-2D reconnection. We also quantify the dimensionalities of magnetic field structures in the simulation to justify the use of such coordinate systems.

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在全球离子动磁层模拟中通过局部坐标寻找再连接线和通量绳轴

摘要磁重联是等离子物理学中一个极其重要的能量转换过程，地球磁层的亚暴周期和太阳耀斑就是最好的例子。虽然二维模型已被广泛应用于研究再连接，但在许多方面，研究三维再连接仍是一个未决问题。从拓扑骨架到洛伦兹变换，人们提出了多种方法来解决这一问题。本研究提出了一种在三维环境中实现准二维结构的补充方法，指出重连接线附近的磁场结构呈现出二维特征，可以在适当选择的局部坐标系中进行识别。我们介绍了这种方法在地球磁层混合 Vlasov Vlasiator 模拟中的应用，展示了在准二维重连接主导的模拟中，重连接产生的复杂磁拓扑结构。我们还量化了模拟中磁场结构的维度，以证明使用这种坐标系的合理性。

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来源期刊

Annales Geophysicae 地学-地球科学综合

CiteScore

4.30

自引率

0.00%

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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.