Envelope burning over-luminosity: a challenge to synthetic TP-AGB models

TL;DR

This paper evaluates synthetic TP-AGB models that include envelope burning over-luminosity effects by comparing them with full evolutionary calculations, exploring their dependence on stellar parameters and implications for stellar evolution.

Contribution

It introduces a validated method for incorporating envelope burning over-luminosity into synthetic TP-AGB models and analyzes its dependence on stellar parameters.

Findings

The method accurately reproduces features of a 7 Msun star with envelope burning.

Envelope burning over-luminosity depends on stellar mass, metallicity, and mixing-length parameter.

Implications for TP-AGB lifetimes and mass loss are discussed.

Abstract

Until recently synthetic AGB models had not taken into account the break-down of the core mass-luminosity (Mc-L) relation due to the occurrence of envelope burning in the most massive (M > 3.5 Msun) and luminous (Mbol > -6) stars. Marigo et al. (1998) made the first attempt to consistently include the related over-luminosity effect (i.e. above the Mc-L relation) in synthetic TP-AGB calculations. In this paper the reliability of the solution scheme is tested by comparison with the results of complete evolutionary calculations for a 7 Msun AGB star undergoing envelope burning (e.g. Bloecker & Schoenberner 1991). Indeed, the method proves to be valid as it is able to reproduce with remarkable accuracy several evolutionary features of the 7 Msun star. We present extensive synthetic TP-AGB calculations for stars with initial masses of 3.5, 4.0, 4.5, and 5.0 Msun, and three choices of the initial metallicity, i.e. Z=0.019, Z=0.008, and Z=0.004. Three values of the mixing-length parameter are used, i.e. alpha=1.68, 2.0, 2.5. We investigate the dependence of envelope burning on such stellar parameters (M, Z, and alpha). The comparison between different cases gives hints on the interplay between envelope burning over-luminosity and mass loss, and related effects on TP-AGB lifetimes.