Magnetic winding: what is it and what is it good for?

TL;DR

This paper explains magnetic winding as a topological measure of magnetic field line entanglement, detailing its calculation, interpretation, and relation to magnetic helicity, highlighting its unique insights into magnetic field topology.

Contribution

It provides a comprehensive description of magnetic winding, its calculation methods, and its distinction from helicity, enhancing understanding of magnetic field topology in magnetohydrodynamics.

Findings

Magnetic winding offers a clear topological description of magnetic fields.

Magnetic winding and helicity can behave differently, revealing distinct information.

Magnetic winding is an invariant of ideal magnetohydrodynamics.

Abstract

Magnetic winding is a fundamental topological quantity that underpins magnetic helicity and measures the entanglement of magnetic field lines. Like magnetic helicity, magnetic winding is also an invariant of ideal magnetohydrodynamics. In this article we give a detailed description of what magnetic winding describes, how to calculate it and how to interpret it in relation to helicity. We show how magnetic winding provides a clear topological description of magnetic fields (open or closed) and we give examples to show how magnetic winding and helicity can behave differently, thus revealing different and imporant information about the underlying magnetic field.