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Main Authors: Ocampo, M. M., Bertolami, M. M. Miller, Althaus, L. G., Wachlin, F. C
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.13087
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author Ocampo, M. M.
Bertolami, M. M. Miller
Althaus, L. G.
Wachlin, F. C
author_facet Ocampo, M. M.
Bertolami, M. M. Miller
Althaus, L. G.
Wachlin, F. C
contents During the various steps of stellar evolution are formed convectives zones that alter the chemical stratification in stars. Usually, in astrophysics is used the Mixing Length Theory (MLT) for modeling the convective movement and, in general, it is used with the Schwarzschild instability criterion, which neglects the impact of chemical composition gradients in the development of convection. However, towards the end of central helium burning and during the thermal pulses in the Asymptotic Giant Branch (AGB) are produced stratification processes with inversions in the chemical gradient that would produce instabilities beyond the ones predicted by the Schwarzschild criterion. These instabilities would alter the chemical profile in the white dwarfs, with respect to the one predicted by MLT, having observable consequences in the pulsational modes of such objects. In the present work we will explore an extension of MLT in which we will consider the chemical instabilities as generators of convectives and non-convectives instabilities. This theory will be applied in stellar evolution models in comparison with standard MLT and a double diffusive mixing theory, discussing the benefits and shortcomings of each one.
format Preprint
id arxiv_https___arxiv_org_abs_2412_13087
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Explorando el impacto de los gradientes químicos en los procesos de mezcla del interior estelar
Ocampo, M. M.
Bertolami, M. M. Miller
Althaus, L. G.
Wachlin, F. C
Solar and Stellar Astrophysics
During the various steps of stellar evolution are formed convectives zones that alter the chemical stratification in stars. Usually, in astrophysics is used the Mixing Length Theory (MLT) for modeling the convective movement and, in general, it is used with the Schwarzschild instability criterion, which neglects the impact of chemical composition gradients in the development of convection. However, towards the end of central helium burning and during the thermal pulses in the Asymptotic Giant Branch (AGB) are produced stratification processes with inversions in the chemical gradient that would produce instabilities beyond the ones predicted by the Schwarzschild criterion. These instabilities would alter the chemical profile in the white dwarfs, with respect to the one predicted by MLT, having observable consequences in the pulsational modes of such objects. In the present work we will explore an extension of MLT in which we will consider the chemical instabilities as generators of convectives and non-convectives instabilities. This theory will be applied in stellar evolution models in comparison with standard MLT and a double diffusive mixing theory, discussing the benefits and shortcomings of each one.
title Explorando el impacto de los gradientes químicos en los procesos de mezcla del interior estelar
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2412.13087