Thermohaline instability and rotation-induced mixing. I - Low- and intermediate-mass solar metallicity stars up to the end of the AGB

Abstract: Context. Numerous spectroscopic observations provide compelling evidence for non-canonical processes that modify the surface abundances of low-and intermediate-mass stars beyond the predictions of standard stellar theory. Aims. We study the effects of thermohaline instability and rotation-induced mixing in the 1-4 M ⊙ range at solar metallicity. Methods. We present evolutionary models by considering both thermohaline and rotation-induced mixing in stellar interior. We discuss the effects of these processes on … Show more

“…The abundance of 3 He is strictly related to that of D: 3 He is produced during H-burning in low and intermediate mass stars, but is also destroyed to produce heavier elements. The stellar production of 3 He is still uncertain since it depends on the treatment of extra-mixing and subsequent Cool Bottom Process in low mass stars (Charbonnel and Lagarde (2010)). From a theoretical point of view we remind a few seminal papers on the evolution of 3 He by Galli et al (1995), Dearborn et al (1996) and Lagarde et al (2012).…”

Modelling the chemical evolution of the Milky Way

“…The abundance of 3 He is strictly related to that of D: 3 He is produced during H-burning in low and intermediate mass stars, but is also destroyed to produce heavier elements. The stellar production of 3 He is still uncertain since it depends on the treatment of extra-mixing and subsequent Cool Bottom Process in low mass stars (Charbonnel and Lagarde (2010)). From a theoretical point of view we remind a few seminal papers on the evolution of 3 He by Galli et al (1995), Dearborn et al (1996) and Lagarde et al (2012).…”

Modelling the chemical evolution of the Milky Way