Shear Flows Driven by the Lorentz Force: An Energy Source for Coronal Mass Ejections and Flares

TL;DR

This paper explains how shear flows driven by the Lorentz force, resulting from emerging bipolar magnetic fields, energize the solar atmosphere and can trigger coronal mass ejections and flares.

Contribution

It provides a physical explanation for shear flows in the solar atmosphere as a response to the Lorentz force during magnetic field emergence.

Findings

Shear flows transport magnetic energy from the solar interior to the corona.

Shear flows explain the alignment of magnetic fields with polarity inversion lines.

Lorentz-force-driven shear flows can lead to eruptions like CMEs and flares.

Abstract

Shear flows have been prescribed in numerical models of coronal mass ejections and flares for decades as a way of energizing magnetic fields to erupt. While such shear flows have long been observed in the solar atmosphere, until recently, there was no compelling physical explanation for them. This paper will discuss the discovery that such shear flows are readily explained as a response to the Lorentz force that naturally occurs as bipolar magnetic fields emerge and expand in a gravitationally stratified atmosphere. It will be shown that shearing motions transport axial flux, and magnetic energy from the submerged portion of the field to the expanding portion, strongly coupling the solar interior to the corona. This physical process explains active region shear flows and why the magnetic field is found to be nearly parallel to photospheric polarity inversion lines where prominences form. Finally, shear flows driven by the Lorentz force are shown to produce a loss of equilibrium and eruption in magnetic arcades and flux ropes offering a convincing explanation for CMEs and flares.