English

Pulsations powered by hydrogen shell burning in white dwarfs

Solar and Stellar Astrophysics 2016-10-26 v1

Abstract

In the absence of a third dredge-up episode during the asymptotic giant branch phase, white dwarf models evolved from low-metallicity progenitors have a thick hydrogen envelope, which makes hydrogen shell burning be the most important energy source. We investigate the pulsational stability of white dwarf models with thick envelopes to see whether nonradial gg-mode pulsations are triggered by hydrogen burning, with the aim of placing constraints on hydrogen shell burning in cool white dwarfs and on a third dredge-up during the asymptotic giant branch evolution of their progenitor stars. We construct white-dwarf sequences from low-metallicity progenitors by means of full evolutionary calculations, and analyze their pulsation stability for the models in the range of effective temperatures Teff150008000T_{\rm eff} \sim 15\,000\,-\, 8\,000 K. We demonstrate that, for white dwarf models with masses M0.71M\sunM_{\star} \lesssim 0.71\,\rm M_{\sun} and effective temperatures 8500Teff116008\,500 \lesssim T_{\rm eff} \lesssim 11\,600 K that evolved from low-metallicity progenitors (Z=0.0001Z= 0.0001, 0.00050.0005, and 0.0010.001) the dipole (=1\ell= 1) and quadrupole (=2\ell=2) g1g_1 modes are excited mostly due to the hydrogen-burning shell through the ε\varepsilon-mechanism, in addition to other gg modes driven by either the κγ\kappa-\gamma or the convective driving mechanism. However, the ε\varepsilon mechanism is insufficient to drive these modes in white dwarfs evolved from solar-metallicity progenitors. We suggest that efforts should be made to observe the dipole g1g_1 mode in white dwarfs associated with low-metallicity environments, such as globular clusters and/or the galactic halo, to place constraints on hydrogen shell burning in cool white dwarfs and the third dredge-up episode during the preceding asymptotic giant branch phase.

Keywords

Cite

@article{arxiv.1606.04367,
  title  = {Pulsations powered by hydrogen shell burning in white dwarfs},
  author = {María E. Camisassa and Alejandro H. Córsico and Leandro G. Althaus and Hiromoto Shibahashi},
  journal= {arXiv preprint arXiv:1606.04367},
  year   = {2016}
}

Comments

6 pages, 4 figures, 1 table. To be published in Astronomy and Astrophysics

R2 v1 2026-06-22T14:24:59.322Z