# Fast Magnetic Reconnection: "Ideal" Tearing and the Hall Effect

**Authors:** Fulvia Pucci, Marco Velli, Anna Tenerani

arXiv: 1704.08793 · 2018-01-22

## TL;DR

This paper investigates how Hall effects modify the critical aspect ratio for triggering fast magnetic reconnection, revealing that Hall currents accelerate the instability and alter the scaling laws of growth rates.

## Contribution

It provides a linear analysis showing the impact of Hall effects on the ideal tearing mode and derives new scaling laws for the critical aspect ratio in magnetic reconnection.

## Key findings

- Hall effects accelerate the reconnection instability.
- The critical inverse aspect ratio scales as (di/L)^0.29 (1/S)^0.19.
- Growth rates become Alfvénic and independent of small parameters at the modified threshold.

## Abstract

One of the main questions in magnetic reconnection is the origin of triggering behavior with on/off properties that accounts, once it is activated, for the fast magnetic energy conversion to kinetic and thermal energies at the heart of explosive events in astrophysical and laboratory plasmas. Over the past decade progress has been made on the initiation of fast reconnection via the plasmoid instability and what has been called "ideal" tearing, which sets in once current sheets thin to a critical inverse aspect ratio $(a/L)_c$: as shown by Pucci and Velli (2014), at $(a/L)_c \sim S^{-1/3}$ the time scale for the instability to develop becomes of the order of the Alfv\'en time and independent of the Lundquist number (here defined in terms of current sheet length $L$). However, given the large values of $S$ in natural plasmas, this transition might occur for thicknesses of the inner resistive singular layer which are comparable to the ion inertial length $d_i$. When this occurs, Hall currents produce a three-dimensional quadrupole structure of magnetic field, and the dispersive waves introduced by the Hall effect accelerate the instability. Here we present a linear study showing how the "ideal" tearing mode critical aspect ratio is modified when Hall effects are taken into account, including more general scaling laws of the growth rates in terms of sheet inverse aspect ratio: the critical inverse aspect ratio is amended to $a/L \simeq (di/L)^ {0.29} (1/S)^{0.19}$, at which point the instability growth rate becomes Alfv\'enic and does not depend on either of the (small) parameters $d_i/L, 1/S$. We discuss the implications of this generalized triggering aspect ratio for recently developed phase diagrams of magnetic reconnection.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1704.08793/full.md

## References

36 references — full list in the complete paper: https://tomesphere.com/paper/1704.08793/full.md

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Source: https://tomesphere.com/paper/1704.08793