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反平行重连下的扭曲螺旋度守恒

Conservation of writhe helicity under anti-parallel reconnection.

作者信息

Laing Christian E, Ricca Renzo L, Sumners De Witt L

机构信息

Sequenom Inc., 3595 John Hopkins Court, San Diego, CA 92121, USA.

Department of Mathematics &Applications, U. Milano-Bicocca Via Cozzi 55, 20125 Milano, Italy.

出版信息

Sci Rep. 2015 Mar 30;5:9224. doi: 10.1038/srep09224.

Abstract

Reconnection is a fundamental event in many areas of science, from the interaction of vortices in classical and quantum fluids, and magnetic flux tubes in magnetohydrodynamics and plasma physics, to the recombination in polymer physics and DNA biology. By using fundamental results in topological fluid mechanics, the helicity of a flux tube can be calculated in terms of writhe and twist contributions. Here we show that the writhe is conserved under anti-parallel reconnection. Hence, for a pair of interacting flux tubes of equal flux, if the twist of the reconnected tube is the sum of the original twists of the interacting tubes, then helicity is conserved during reconnection. Thus, any deviation from helicity conservation is entirely due to the intrinsic twist inserted or deleted locally at the reconnection site. This result has important implications for helicity and energy considerations in various physical contexts.

摘要

重新连接是许多科学领域中的一个基本事件,从经典和量子流体中涡旋的相互作用、磁流体动力学和等离子体物理学中的磁通管,到聚合物物理学和DNA生物学中的重组。通过运用拓扑流体力学的基本结果,可以根据缠绕数和扭曲贡献来计算磁通管的螺旋度。在此我们表明,在反平行重新连接下缠绕数是守恒的。因此,对于一对具有相等通量的相互作用磁通管,如果重新连接后的管子的扭曲是相互作用管子原始扭曲之和,那么在重新连接过程中螺旋度是守恒的。所以,任何与螺旋度守恒的偏差完全是由于在重新连接位点局部插入或删除的固有扭曲。这一结果在各种物理情境下对螺旋度和能量考量具有重要意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/773f/4377626/a6dcbc621ed5/srep09224-f1.jpg

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