On the recent parametric determination of an asteroseismological model for the DBV star KIC 08626021

TL;DR

This study investigates the chemical structure of the pulsating white dwarf KIC 08626021 through asteroseismology, revealing discrepancies with standard stellar evolution models and exploring necessary modifications in nuclear reaction rates and physical processes.

Contribution

It demonstrates that reproducing the observed chemical structure requires significant adjustments to nuclear reaction rates and highlights challenges in current white dwarf formation theories.

Findings

Standard models cannot reproduce the observed chemical profile.

Increasing the 12C+alpha reaction rate by a factor of ~10 during core-He burning is necessary.

Reproducing the structure remains difficult within current stellar evolution understanding.

Abstract

Asteroseismology of white dwarf (WD) stars is a powerful tool that allows to reveal the hidden chemical structure of WD and infer details about their evolution by comparing the observed periods with those obtained from stellar models. A recent asteroseismological study has reproduced the period spectrum of the helium rich pulsating WD KIC 08626021 with an unprecedented precision. The chemical structure derived from that analysis is notably different from that expected for a WD according to currently accepted formation channels, thus posing a challenge to the theory of stellar evolution. We explore the relevant micro- and macro-physics processes acting during the formation and evolution of KIC 08626021 that could lead to a chemical structure similar to that found through asteroseismology. We quantify to which extent is necessary to modify the physical processes that shapes the chemical structure, in order to reproduce the most important features of the asteroseismic model. We model the previous evolution of KIC 08626021 by exploring specific changes in the 12C+alpha reaction rate, screening processes, microscopic diffusion, as well as convective boundary mixing during core-He burning. We find that, in order to reproduce the core chemical profile derived for KIC 0862602, the 12C+alpha nuclear reaction rate has to be increased by a factor of $\sim$ 10 during the helium-core burning, and reduced by a factor of $\sim$ 1000 during the following helium-shell burning, as compared with the standard predictions for this rate. In addition, the main chemical structures derived for KIC 0862602 cannot be reconciled with our present knowledge of white dwarf formation. We find that within our current understanding of white dwarf formation and evolution, it is difficult to reproduce the most important asteroseismologically-derived features of the chemical structure of KIC 08626021.