Impact of rotation on stellar models

Georges Meynet; Andre Maeder; Patrick Eggenberger; Sylvia Ekstrom,; Cyril Georgy; Cristina Chiappini; Giovanni Privitera; Arthur Choplin

arXiv:1512.00767·astro-ph.SR·December 14, 2016

Impact of rotation on stellar models

Georges Meynet, Andre Maeder, Patrick Eggenberger, Sylvia Ekstrom,, Cyril Georgy, Cristina Chiappini, Giovanni Privitera, Arthur Choplin

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TL;DR

This paper reviews how stellar rotation influences star structure, evolution, magnetic fields, age estimates, star-planet interactions, and the chemical evolution of the Milky Way, highlighting its broad astrophysical implications.

Contribution

It provides a comprehensive overview of the multifaceted effects of rotation on stellar and galactic phenomena, integrating recent research across various topics.

Findings

01

Rotation affects magnetic field generation in stars.

02

Rotation influences age determination of star clusters.

03

Rotation impacts chemical evolution and star formation history.

Abstract

After a brief recall of the main impacts of stellar rotation on the structure and the evolution of stars, four topics are addressed: 1) the links between magnetic fields and rotation; 2) the impact of rotation on the age determination of clusters; 3) the exchanges of angular momentum between the orbit of a planet and the star due to tides; 4) the impact of rotation on the early chemical evolution of the Milky Way and the origin of the Carbon-Enhanced-Metal-Poor stars.

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