快速磁重联起始的灾变模型。

Catastrophe model for fast magnetic reconnection onset.

作者信息

Cassak P A, Shay M A, Drake J F

机构信息

University of Maryland, College Park, Maryland 20742, USA.

出版信息

Phys Rev Lett. 2005 Dec 2;95(23):235002. doi: 10.1103/PhysRevLett.95.235002. Epub 2005 Nov 29.

DOI:10.1103/PhysRevLett.95.235002

PMID:16384311

Abstract

A catastrophe model for the onset of fast magnetic reconnection is presented that suggests why plasma systems with magnetic free energy remain apparently stable for long times and then suddenly release their energy. For a given set of plasma parameters there are generally two stable reconnection solutions: a slow (Sweet-Parker) solution and a fast (Alfvénic) Hall reconnection solution. Below a critical resistivity the slow solution disappears and fast reconnection dominates. Scaling arguments predicting the two solutions and the critical resistivity are confirmed with two-fluid simulations.

摘要

提出了一种快速磁重联起始的灾变模型，该模型解释了为何具有磁自由能的等离子体系统长时间看似稳定，然后却突然释放能量。对于给定的一组等离子体参数，通常存在两种稳定的重联解：一种慢速（斯威特-帕克）解和一种快速（阿尔文型）霍尔重联解。在临界电阻率以下，慢速解消失，快速重联占主导。通过双流体模拟证实了预测这两种解和临界电阻率的标度论证。

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快速磁重联起始的灾变模型。

Catastrophe model for fast magnetic reconnection onset.

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