Transverse kink oscillations in the presence of twist

TL;DR

This study investigates how magnetic twist affects transverse kink oscillations in coronal loops, revealing that twist causes mode splitting and polarization changes, which can help estimate magnetic twist through observations.

Contribution

It provides the first detailed numerical analysis of the effects of magnetic twist on stable transverse kink MHD waves in coronal loops.

Findings

Frequency splitting occurs with nonconstant twist.

Polarization of transverse displacement changes linearly with twist.

Weak twist does not alter the kink mode frequency in thin tubes.

Abstract

Magnetic twist is thought to play an important role in coronal loops. The effects of magnetic twist on stable magnetohydrodynamic (MHD) waves is poorly understood because they are seldom studied for relevant cases. The goal of this work is to study the fingerprints of magnetic twist on stable transverse kink oscillations. We numerically calculated the eigenmodes of propagating and standing MHD waves for a model of a loop with magnetic twist. The azimuthal component of the magnetic field was assumed to be small in comparison to the longitudinal component. We did not consider resonantly damped modes or kink instabilities in our analysis. For a nonconstant twist the frequencies of the MHD wave modes are split, which has important consequences for standing waves. This is different from the degenerated situation for equilibrium models with constant twist, which are characterised by an azimuthal component of the magnetic field that linearly increases with the radial coordinate. In the presence of twist standing kink solutions are characterised by a change in polarisation of the transverse displacement along the tube. For weak twist, and in the thin tube approximation, the frequency of standing modes is unaltered and the tube oscillates at the kink speed of the corresponding straight tube. The change in polarisation is linearly proportional to the degree of twist. This has implications with regard to observations of kink modes, since the detection of this variation in polarisation can be used as an indirect method to estimate the twist in oscillating loops.