Abstract

We establish the similarity in two model-based reconstructions of the coupling between the polar magnetic fields of the Sun represented by the solar faculae time series. The reconstructions are inferred from the pair of the coupled oscillators modelled with the Van der Pol and Kuramoto equations. They are associated with the substantial simplification of solar dynamo models and, respectively, a simple ad hoc model reproducing the phenomenon of synchronization. While the polar fields are synchronized, both of the reconstruction procedures restore couplings, which attain moderate values and follow each other rather accurately as the functions of time. We also estimate the evolution of the phase difference between the polar fields and claim that they tend to move apart more quickly than approach each other.

Highlights

  • Scientists are challenged by existed regular patterns and examples of irregularities in the dynamics of the hemispheric asymmetry in the solar magnetic field [1,2]

  • The purpose of this paper is to introduce a measure of similarity in the reconstructions of the coupling performed with the Kuramoto and Van der Pol system of two oscillators

  • We address the question regarding the dynamics of the coupling and the phase difference when estimating the proximity of the reconstructions

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Summary

Introduction

Scientists are challenged by existed regular patterns and examples of irregularities in the dynamics of the hemispheric asymmetry in the solar magnetic field [1,2]. Regular observations of the meridional circulation have been reported only recently. Their empirical investigation and explanation with the flux transport models reveal general mechanisms but still leave open questions regarding the number and geometry of the cells, the influence of the meridional circulation to the solar cycle, and the dynamics of the velocity profile of the meridional circulation [13,14,15,16,17,18]

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