Thermohaline mixing: a physical mechanism governing the photospheric composition of low-mass giants
Résumé
Aims:Numerous spectroscopic observations provide compelling evidence for a non-canonical mixing process that modifies the surface abundances of Li, C and N of low-mass red giants when they reach the bump in the luminosity function. Eggleton and collaborators have proposed that a molecular weight inversion created by the ^3He(^3He, 2p)^4He reaction may be at the origin of this mixing, and relate it to the Rayleigh-Taylor instability. We argue that one is actually dealing with a double diffusive instability referred to as thermohaline convection and we discuss its influence on the red giant branch.
Methods: We compute stellar models of various initial metallicities that include thermohaline mixing, which is treated as a diffusive process based on the prescription given originally by Ulrich for the turbulent diffusivity produced by the thermohaline instability in stellar radiation zones.
Results: Thermohaline mixing simultaneously accounts for the observed behaviour of the carbon isotopic ratio and of the abundances of Li, C and N in the upper part of the red giant branch. It significantly reduces the ^3He production with respect to canonical evolution models as required by measurements of ^3He/H in galactic HII regions.
Conclusions: Thermohaline mixing is a fundamental physical process that must be included in stellar evolution modeling.
Methods: We compute stellar models of various initial metallicities that include thermohaline mixing, which is treated as a diffusive process based on the prescription given originally by Ulrich for the turbulent diffusivity produced by the thermohaline instability in stellar radiation zones.
Results: Thermohaline mixing simultaneously accounts for the observed behaviour of the carbon isotopic ratio and of the abundances of Li, C and N in the upper part of the red giant branch. It significantly reduces the ^3He production with respect to canonical evolution models as required by measurements of ^3He/H in galactic HII regions.
Conclusions: Thermohaline mixing is a fundamental physical process that must be included in stellar evolution modeling.
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