http://arxiv.org/abs/1409.3589
The behaviour of carbon-oxygen white dwarfs (WDs) subject to direct helium accretion is extensively studied. We aim to analyze the thermal response of the accreting WD to mass deposition at different time scales. The analysis has been performed for initial WDs masses and accretion rates in the range (0.60 – 1.02) Msun and 1.e-9 – 1.e-5 Msun/yr, respectively. Thermal regimes in the parameters space M_{WD} – dot{M}_{He}, leading to formation of red-giant-like structure, steady burning of He, mild, strong and dynamical flashes have been identified and the transition between those regimes has been studied in detail. In particular, the physical properties of WDs experiencing the He-flash accretion regime have been investigated in order to determine the mass retention efficiency as a function of the accretor total mass and accretion rate. We also discuss to what extent the building-up of a He-rich layer via H-burning could be described according to the behaviour of models accreting He-rich matter directly. Polynomial fits to the obtained results are provided for use in binary population synthesis computations. Several applications for close binary systems with He-rich donors and CO WD accretors are considered and the relevance of the results for the interpretation of He-novae is discussed.
L. Piersanti, A. Tornambe and L. Yungelson
Mon, 15 Sep 14
32/47
Comments: 25 pages, 17 figures, 12 Tables. Two additional tables are also included (7 pages). Accepted for the publication in MNRAS
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