Asteroseismology of hot pre-white dwarf stars: the case of the DOV stars PG 2131+066 and PG 1707+427, and the PNNV star NGC 1501

CORSICO, A.; ALTHAUS, L. G.; M. M. MILLER BERTOLAMI.; GARCIA-BERRO, E.

ASTRONOMY AND ASTROPHYSICS

EDP SCIENCES S A

Lugar: Les Ulis; Año: 2009 vol. 499 p. 257 - 266

0004-6361

Aims. We present an asteroseismological study on the two high-gravity pulsating PG 1159 (GW Vir or DOV) stars, PG 2131+066and PG 1707+427, and on the pulsating [WCE] star NGC 1501. All of these stars have been intensively scrutinized through multi-siteobservations, so they have well resolved pulsation spectra.Methods. We compute adiabatic g-mode pulsation periods on PG 1159 evolutionary models with stellar masses ranging from 0.530 to0.741 M. These models take into account the complete evolution of progenitor stars, through the thermally pulsing AGB phase, andborn-again episode. We constrain the stellar mass of PG 2131+066, PG 1707+427, and NGC 1501 by comparing the observed periodspacing with the asymptotic period spacing and with the average of the computed period spacings. We also employ the individualobserved periods in search of representative seismological models for each star.Results. We derive a stellar mass of 0.627 M for PG 2131+066, 0.597 M for PG 1707+427, and 0.571 M for NGC 1501 froma comparison between the observed period spacings and the computed asymptotic period spacings, and a stellar mass of 0.578 M for PG 2131+066, 0.566 M for PG 1707+427, and 0.576 M for NGC 1501 by comparing the observed period spacings with theaverage of the computed period spacings. We also find, on the basis of a period-fit procedure, asteroseismological models representativesof PG 2131+066 and PG 1707+427. These best-fit models are able to reproduce the observed period patterns of these starswith an average of the period differences of δΠi = 1.57 s and δΠi = 1.75 s, respectively. The best-fit model for PG 2131+066 has aneffective temperature Teff = 102 100 K, a stellar mass M∗ = 0.589 M, a surface gravity log g = 7.63, a stellar luminosity and radiusof log(L∗/L) = 1.57 and log(R∗/R) = −1.71, respectively, and a He-rich envelope thickness of Menv = 1.6 × 10−2 M. We derive aseismic distance d ∼ 830 pc and a parallax π ∼ 1.2 mas. The best-fit model for PG 1707+427, on the other hand, has Teff = 89 500 K,M∗ = 0.542 M, logg = 7.53, log(L∗/L) = 1.40, log(R∗/R) = −1.68, and Menv = 2.5 × 10−2 M, and the seismic distance andparallax are d ∼ 730 pc and π ∼ 1.4 mas. Finally, we have been unable to find an unambiguous best-fit model for NGC 1501 on thebasis of a period-fit procedure.Conclusions. This work closes our short series of asteroseismological studies on pulsating pre-white dwarf stars. Our results demonstratethe usefulness of asteroseismology for probing the internal structure and evolutionary status of pre-white dwarf stars. In particular,asteroseismology is able to determine stellar masses of PG 1159 stars with an accuracy comparable or even better thanspectroscopy.