Inferring Quadrupolar Dynamo Mode from Sunspot Statistics
Abstract
Observations of long-term north-south asymmetry in solar activity demand the equator-symmetric (quadrupolar) mode be present in the solar magnetic field in line with the dominant antisymmetric (dipolar) mode. This paper proposes treating the sunspot area as a proxy for subsurface toroidal magnetic flux to infer the quadrupolar mode of the solar dynamo from sunspot data. Toroidal pseudo-fluxes (PF) in the northern and southern hemispheres are defined as a signed sunspot area with plus or minus sign prescribed to them in accord with the Hale's sunspot polarity rules. Statistical correlation analysis and wavelet analysis of so-defined PFs reveal quadrupolar oscillations with a period of about 16 yr and amplitude of about 0.17 relative to the amplitude of the dominant 22-yr dipolar mode.
Cite
@article{arxiv.2205.13747,
title = {Inferring Quadrupolar Dynamo Mode from Sunspot Statistics},
author = {Leonid Kitchatinov},
journal= {arXiv preprint arXiv:2205.13747},
year = {2022}
}
Comments
5 pages, 6 figures