Sausage Instabilities on Top of Kinking Lengthening Current-Carrying Magnetic Flux Tubes
Jens von der Linden, Setthivoine You

TL;DR
This paper theoretically investigates the conditions under which sausage instabilities can develop on top of kink instabilities in lengthening current-carrying magnetic flux tubes, revealing overlapping stability regions and a unified criterion for their onset.
Contribution
It derives a general stability criterion for sausage and kink instabilities in idealized magnetic flux tubes, highlighting their overlapping regions and dependence on current profiles.
Findings
Sausage instabilities can develop after kink instabilities in flux tubes.
Overlapping unstable regions exist in the stability parameter space.
A single parameter describes the current profile's effect on stability.
Abstract
We theoretically explore the possibility of sausage instabilities developing on top of a kink instability in lengthening current-carrying magnetic flux tubes. Observations indicate that the dynamics of magnetic flux tubes in our cosmos and terrestrial experiments can involve topological changes faster than time scales predicted by resistive magnetohydrodynamics. Recent laboratory experiments suggest that hierarchies of instabilities, such as kink and Rayleigh-Taylor, could be responsible for initiating fast topological changes by locally accessing two fluid and kinetic regimes. Sausage instabilities can also provide this coupling mechanism between disparate scales. Flux tube experiments can be classified by the flux tube's evolution in a configuration space described by a normalized inverse aspect-ratio and current-to-magnetic flux ratio . A lengthening…
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Taxonomy
TopicsSolar and Space Plasma Dynamics · Geomagnetism and Paleomagnetism Studies · Astro and Planetary Science
