Accretion and the nova outburst
Abstract
Evolutionary sequences of thermonuclear runaways in the hydrogen-rich envelopes of carbon-oxygen white dwarfs are presented which include the effects of accretion of infalling material, allow the initial envelope to be out of equilibrium, and reproduce the gross features of the nova outburst. The models show that massive infall rates produce strong shocks at the stellar surface, that material passing through the shocks reaches nuclear-ignition temperatures, and that the thermonuclear runaway proceeds with an extended envelope around the star in the most extreme cases. The major effect of accretion is found to be a reduction in the amount of material ejected for a given degree of CNO enhancement as compared with previous nonaccretion models. It is also found that all the heating that causes ejection occurs in the deeper layers and that the light curves produced by the present models are in closer agreement with observed nova light curves that the previous models.
- Publication:
-
Memoires of the Societe Royale des Sciences de Liege
- Pub Date:
- 1975
- Bibcode:
- 1975MSRSL...8..413S
- Keywords:
-
- Astronomical Models;
- Novae;
- Stellar Envelopes;
- Stellar Evolution;
- Thermonuclear Reactions;
- White Dwarf Stars;
- Carbon;
- Ignition Temperature;
- Light Curve;
- Shock Wave Propagation;
- Stellar Mass Ejection;
- Astrophysics