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Detecting axisymmetric magnetic fields using gravity modes in intermediate-mass stars

Authors :
Van Beeck, Jordan
Prat, Vincent
Van Reeth, Timothy
Mathis, Stéphane
Bowman, Dominic M.
Neiner, Coralie
Aerts, Conny
Source :
A&A 638, A149 (2020)
Publication Year :
2020

Abstract

Context: Angular momentum (AM) transport models of stellar interiors require improvements to explain the strong extraction of AM from stellar cores that is observed with asteroseismology. One of the often invoked mediators of AM transport are internal magnetic fields, even though their properties, observational signatures and influence on stellar evolution are largely unknown. Aims: We study how a fossil, axisymmetric internal magnetic field affects period spacing patterns of dipolar gravity mode oscillations in main-sequence stars with masses of 1.3, 2.0 and 3.0 M$_\odot$. We assess the influence of fundamental stellar parameters on the magnitude of pulsation mode frequency shifts. Methods: We compute dipolar gravity mode frequency shifts due to a fossil, axisymmetric poloidal-toroidal internal magnetic field for a grid of stellar evolution models, varying stellar fundamental parameters. Rigid rotation is taken into account using the traditional approximation of rotation and the influence of the magnetic field is computed using a perturbative approach. Results: We find magnetic signatures for dipolar gravity mode oscillations in terminal-age main-sequence stars that are measurable for a near-core field strength larger than $10^{5}$ G. The predicted signatures differ appreciably from those due to rotation. Conclusions: Our formalism demonstrates the potential for the future detection and characterization of strong fossil, axisymmetric internal magnetic fields in gravity-mode pulsators near the end of core-hydrogen burning from Kepler photometry, if such fields exist.<br />Comment: 22 pages (16 pages of main text + 6 pages of appendix), 20 figures, 4 tables. Accepted for publication in A&A

Details

Database :
arXiv
Journal :
A&A 638, A149 (2020)
Publication Type :
Report
Accession number :
edsarx.2005.02411
Document Type :
Working Paper
Full Text :
https://doi.org/10.1051/0004-6361/201937363