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Autores principales: Basu, Sarbani, Korzennik, Sylvain G.
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2401.12333
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author Basu, Sarbani
Korzennik, Sylvain G.
author_facet Basu, Sarbani
Korzennik, Sylvain G.
contents We have used solar oscillation frequencies and frequency splittings obtained over solar cycles 23 and 24 to investigate whether the base of the solar convection zone shows any departure from spherical symmetry. We used the even-order splitting coefficients, $a_2$-$a_8$, and estimated the contributions from each one separately. The average asphericity over the two solar cycles was determined using frequencies and splittings obtained with a 9216-day time-series. We find that evidence of asphericity is, {\em at best}, marginal: the $a_2$ component is consistent with no asphericity, the $a_4$ and $a_6$ components yield results at a level a little greater than $1\,σ$, while the $a_8$ component shows a signature below $1\,σ$. The combined results indicate that the time average of the departure from the spherically symmetric position of the base of the convection zone is $\lesssim 0.0001R_\odot$. We have also used helioseismic data obtained from time-series of lengths 360 days, 576 days, 1152 days, and 2304 days in order to examine the consistency of the results and evaluate whether there is any time variation. We find that the evidence for time variation is statistically marginal in all cases, except for the $a_6$ component, for which tests consistently yield $p$ values of less than $0.05$.
format Preprint
id arxiv_https___arxiv_org_abs_2401_12333
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Asphericity of the base of the solar convection zone
Basu, Sarbani
Korzennik, Sylvain G.
Solar and Stellar Astrophysics
We have used solar oscillation frequencies and frequency splittings obtained over solar cycles 23 and 24 to investigate whether the base of the solar convection zone shows any departure from spherical symmetry. We used the even-order splitting coefficients, $a_2$-$a_8$, and estimated the contributions from each one separately. The average asphericity over the two solar cycles was determined using frequencies and splittings obtained with a 9216-day time-series. We find that evidence of asphericity is, {\em at best}, marginal: the $a_2$ component is consistent with no asphericity, the $a_4$ and $a_6$ components yield results at a level a little greater than $1\,σ$, while the $a_8$ component shows a signature below $1\,σ$. The combined results indicate that the time average of the departure from the spherically symmetric position of the base of the convection zone is $\lesssim 0.0001R_\odot$. We have also used helioseismic data obtained from time-series of lengths 360 days, 576 days, 1152 days, and 2304 days in order to examine the consistency of the results and evaluate whether there is any time variation. We find that the evidence for time variation is statistically marginal in all cases, except for the $a_6$ component, for which tests consistently yield $p$ values of less than $0.05$.
title Asphericity of the base of the solar convection zone
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2401.12333