Condensate Nuclei and Magnetic Polarity Reversals in the Sun and Solar-type Stars

TL;DR

This paper presents a model for magnetic field generation in the Sun and similar stars based on magnetically polarized condensates, explaining magnetic polarity reversals and energy variations during solar cycles.

Contribution

It introduces a novel model linking condensate formation to magnetic polarity reversals and solar cycle characteristics in solar-type stars.

Findings

Correctly estimates solar cycle period and energy loss.

Explains magnetic polarity reversals through condensate feedback.

Accounts for energy emission enhancements during cycles.

Abstract

Magnetic field generation in the Sun and solar-type stars is modeled here based on the formation of magnetically polarized condensates (B. M. Mirza, Mod. Phys. Lett. B 28 (2014) 1450148) under the high density and pressure conditions. The correct orders of magnitude for the time period and the energy loss in a solar cycle are deduced, as well as the enhancement in the energy emission observed during solar cycles. It is shown that this feedback magnetic field along with differential rotation is sufficient to generate the toroidal magnetic field in the solar exterior. The model is useful in determining magnetic polarity reversals, energy generation, and reversal times, in solar-type stars.