Mean field models of flux transport dynamo and meridional circulation in the Sun and stars

TL;DR

This paper reviews mean field models of flux transport dynamo and meridional circulation in the Sun and stars, emphasizing their physical basis, interactions, and implications for understanding solar and stellar magnetic cycles.

Contribution

It provides a comprehensive review of mean field theories and flux transport dynamo models, highlighting their applications and future prospects in solar and stellar magnetism research.

Findings

Mean field theory explains the origin of meridional circulation.

Flux transport dynamo models incorporate Babcock--Leighton mechanism.

Interactions between magnetic fields and circulation influence solar cycle variability.

Abstract

The most widely accepted model of the solar cycle is the flux transport dynamo model. This model evolved out of the traditional $\alpha \Omega$ dynamo model which was first developed at a time when the existence of the Sun's meridional circulation was not known. In these models, the toroidal magnetic field (which gives rise to sunspots) is generated by the stretching of the poloidal field by solar differential rotation. The primary source of the poloidal field in the flux transport models is attributed to the Babcock--Leighton mechanism, in contrast to the mean-field $\alpha$-effect used in earlier models. With the realization that the Sun has a meridional circulation, which is poleward at the surface and is expected to be equatorward at the bottom of the convection zone, its importance for transporting the magnetic fields in the dynamo process was recognized. Much of our understanding about the physics of both the meridional circulation and the flux transport dynamo has come from the mean field theory obtained by averaging the equations of MHD over turbulent fluctuations. The mean field theory of meridional circulation makes clear how it arises out of an interplay between the centrifugal and thermal wind terms. We provide a broad review of mean field theories for solar magnetic fields and flows, the flux transport dynamo modeling paradigm and highlight some of their applications to solar and stellar magnetic cycles. We also discuss how the dynamo-generated magnetic field acts on the meridional circulation of the Sun and how the fluctuations in the meridional circulation, in turn, affect the solar dynamo. We conclude with some remarks on how the synergy of mean field theories, flux transport dynamo models, and direct numerical simulations can inspire the future of this field.