The Rayleigh Bubble in Quark Matter under a Strong Magnetic Field

B.O. Kerbikov; M.S. Lukashov

arXiv:1911.04148·hep-ph·May 13, 2020

The Rayleigh Bubble in Quark Matter under a Strong Magnetic Field

B.O. Kerbikov, M.S. Lukashov

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TL;DR

This paper investigates how strong magnetic fields in quark-gluon plasma affect Rayleigh bubble instabilities, concluding that magnetic effects are negligible compared to viscous forces.

Contribution

It provides the first analysis of magnetic field influence on Rayleigh instability in quark matter, showing magnetic friction is weaker than viscosity.

Findings

01

Magnetic fields have minimal impact on Rayleigh bubble dynamics.

02

Magnetic 'friction' is weaker than viscous friction.

03

Strong magnetic fields do not significantly alter instability behavior.

Abstract

The transition of QGP from fluid-dynamical regime to freeze-out is accompanied by the onset of instabilities. In the present paper we investigate the impact of the magnetic field on the Rayleigh instability. We show that extremely strong field generated in peripheral heavy ion collisions has an insignificant influence on the Rayleigh bubble dynamics. Magnetic "friction" turns out to be much weaker than the viscous one.

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