Angular Momentum Transport in Stellar Interiors

Conny Aerts; Stéphane Mathis; Tamara M. Rogers

doi:10.1146/annurev-astro-091918-104359

Annual Review of Astronomy and Astrophysics

Volume 57, 2019

Review Article

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Angular Momentum Transport in Stellar Interiors

Conny Aerts^1,2, Stéphane Mathis^3,4, and Tamara M. Rogers^5,6
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Affiliations: ¹Institute of Astronomy, KU Leuven, B-3001 Leuven, Belgium; email: [email protected] ²Department of Astrophysics, IMAPP, Radboud University Nijmegen, 6500 GL Nijmegen, The Netherlands ³Laboratoire AIM Paris-Saclay, CEA/DRF–CNRS–Université Paris Diderot, IRFU/DAP Centre de Saclay, F-91191 Gif-sur-Yvette, France; email: [email protected] ⁴LESIA, Observatoire de Paris, Université PSL, CNRS, Sorbonne Universités, UPMC Université Paris 06, Université Paris Diderot, Sorbonne Paris Cité, F-92195 Meudon, France ⁵Department of Mathematics, Statistics and Physics, Newcastle University, Newcastle upon Tyne NE1 7RU, United Kingdom; email: [email protected] ⁶Planetary Science Institute, Tucson, Arizona 85721, USA
Vol. 57:35-78 (Volume publication date August 2019) https://doi.org/10.1146/annurev-astro-091918-104359
First published as a Review in Advance on May 29, 2019
Copyright © 2019 by Annual Reviews. All rights reserved

Abstract

Stars lose a significant amount of angular momentum between birth and death, implying that efficient processes transporting it from the core to the surface are active. Space asteroseismology delivered the interior rotation rates of more than a thousand low- and intermediate-mass stars, revealing the following:

▪ Single stars rotate nearly uniformly during the core-hydrogen and core-helium burning phases.
▪ Stellar cores spin up to a factor of 10 faster than the envelope during the red giant phase.
▪ The angular momentum of the helium-burning core of stars is in agreement with the angular momentum of white dwarfs.

Observations reveal a strong decrease of core angular momentum when stars have a convective core. Current theory of angular momentum transport fails to explain this. We propose improving the theory with a data-driven approach, whereby angular momentum prescriptions derived frommultidimensional (magneto)hydrodynamical simulations and theoretical considerations are continuously tested against modern observations. The TESS and PLATO space missions have the potential to derive the interior rotation of large samples of stars, including high-mass and metal-poor stars in binaries and clusters. This will provide the powerful observational constraints needed to improve theory and simulations.

Keyword(s): asteroseismology, stars: evolution, stars: interiors, stars: oscillations (including pulsations), stars: rotation, waves

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Angular Momentum Transport in Stellar Interiors

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Annual Review of Astronomy and Astrophysics

Volume 57, 2019

Review Article

Free

Angular Momentum Transport in Stellar Interiors

Abstract

Supplementary Data

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