1. ON THE POSSIBLE EXISTENCE OF SHORT-PERIODg-MODE INSTABILITIES POWERED BY NUCLEAR-BURNING SHELLS IN POST-ASYMPTOTIC GIANT BRANCH H-DEFICIENT (PG1159-TYPE) STARS
- Author
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Souza Oliveira Kepler, Leandro Gabriel Althaus, M. M. Miller Bertolami, J. M. Gonzalez Perez, and Alejandro H. Córsico
- Subjects
Ciencias Astronómicas ,Stars: Interiors ,Oscillations ,Ciencias Físicas ,evolution [Stars] ,Astrophysics ,Interiors [Stars] ,Evolution of stars ,Instability ,purl.org/becyt/ford/1 [https] ,W 47 (estrella) ,Ionization ,Astrophysics::Solar and Stellar Astrophysics ,Asymptotic giant branch ,Stellar evolution ,Astrophysics::Galaxy Astrophysics ,Physics ,individual (VV 47) [Stars] ,White dwarfs ,White dwarf ,Astronomy and Astrophysics ,purl.org/becyt/ford/1.3 [https] ,Planetary nebula ,Astronomía ,Interior stars ,Stars: evolution ,Stars ,Stars: individual (VV 47) ,Space and Planetary Science ,Oscillations [Stars] ,Instability strip ,Stars: Oscillations ,CIENCIAS NATURALES Y EXACTAS - Abstract
We present a pulsational stability analysis of hot post-asymptotic giant branch (AGB) H-deficient pre-white dwarf stars with active He-burning shells. The stellar models employed are state-of-the-art equilibrium structures representative of PG1159 stars derived from the complete evolution of the progenitor stars, through the thermally pulsing AGB phase and born-again episode. On the basis of fully nonadiabatic pulsation computations, we confirmed theoretical evidence for the existence of a separate PG1159 instability strip in the log Teff-log g diagram characterized by short-period g-modes excited by the ε-mechanism. This instability strip partially overlaps the already known GW Vir instability strip of intermediate/long-period g-modes destabilized by the classical κ-mechanism acting on the partial ionization of C and/or O in the envelope of PG1159 stars. We found that PG1159 stars characterized by thick He-rich envelopes and located inside this overlapping region could exhibit both short and intermediate/long periods simultaneously. As a natural application of our results, we study the particular case of VV 47, a pulsating planetary nebula nucleus (PG1159 type) that is particularly interesting because it has been reported to exhibit a rich and complex pulsation spectrum including a series of unusually short pulsation periods. We found that the long periods exhibited by VV 47 can be readily explained by the classical κ-mechanism, while the observed short-period branch below ≈300 s could correspond to modes triggered by the He-burning shell through the ε-mechanism, although more observational work is needed to confirm the reality of these short-period modes. Were the existence of short-period g-modes in this star convincingly confirmed by future observations, VV 47 could be the first known pulsating star in which both the κ-mechanism and the ε-mechanism of mode driving are simultaneously operating., Facultad de Ciencias Astronómicas y Geofísicas
- Published
- 2009