CLES, Code Liegeois d'Evolution Stellaire

R. Scuflaire; S. Theado; J. Montalban; A. Miglio; P.-O. Bourge; M.; Godart; A. Thoul; and A. Noels (Institut d'Astrophysique et de Geophysique,; Universite de Liege)

arXiv:0712.3471·astro-ph·June 23, 2009

CLES, Code Liegeois d'Evolution Stellaire

R. Scuflaire, S. Theado, J. Montalban, A. Miglio, P.-O. Bourge, M., Godart, A. Thoul, and A. Noels (Institut d'Astrophysique et de Geophysique,, Universite de Liege)

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TL;DR

CLES is a versatile stellar evolution code designed for asteroseismology, allowing customizable physics inputs and easy implementation of new features, with demonstrated use in solar calibration.

Contribution

The paper introduces the CLES code, highlighting its flexibility, feature set, and techniques for solving stellar structure equations, tailored for asteroseismology studies.

Findings

01

Successfully used for solar calibration

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Offers extensive input physics options

03

Facilitates tailored stellar modeling

Abstract

Cles is an evolution code recently developed to produce stellar models meeting the specific requirements of studies in asteroseismology. It offers the users a lot of choices in the input physics they want in their models and its versatility allows them to tailor the code to their needs and implement easily new features. We describe the features implemented in the current version of the code and the techniques used to solve the equations of stellar structure and evolution. A brief account is given of the use of the program and of a solar calibration realized with it.

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