Astronomy and Astrophysics – Astronomy
Scientific paper
Aug 1995
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995apj...448..807p&link_type=abstract
Astrophysical Journal v.448, p.807
Astronomy and Astrophysics
Astronomy
95
Accretion, Accretion Disks, Hydrodynamics, Nuclear Reactions, Nucleosynthesis, Abundances, Stars: Novae, Cataclysmic Variables, Stars: White Dwarfs
Scientific paper
Hydrodynamic studies have been performed of accretion onto 1.00 Msun, 1.25 Msun, and 1.35 Msun oxygen-neon-magnesium (ONeMg) white dwarfs at a rate of 1017 g s-1. The material from the companion star is expected to be of solar composition but is assumed to be mixed with material from the underlying white dwarf during accretion, such that the accumulating envelope material is enriched in oxygen, neon, and magnesium to fifty percent by mass. A new, expanded nuclear reaction network, utilizing up-to-date reaction rates and including 78 nuclei up to 40Ca, has been used in combination with the hydrodynamics for the first time in this study.
We again find that the outbursts become more violent as the assumed white dwarf mass is increased. Burning temperatures, nuclear energy generation rates, and ejecta velocities all increase significantly with mass. A peak burning temperature of 356 × 106 K is reached in the 1.35 Msun sequence, allowing significant nucleosynthesis of intermediate-mass elements to occur. We find that as we increase the white dwarf mass, the abundance of 26Al decreases (by about a factor of 3 for our range of white dwarf masses), and the abundances of 22Na and the majority of nuclei in the Si-Ca range increase significantly (by 2 orders of magnitude or greater). Our simulations indicate that nova outbursts which occur on ONeMg white dwarfs having a mass of 1.25 Msun or greater produce sufficient amounts of 22Na such that γ-rays from the decay of 22Na should be detectable with the Compton Gamma Ray Observatory, if the nova is nearby (D ˜ 1 kpc). Our simulations also confirm that nova outbursts occurring on ONeMg white dwarfs are an important source of 26Al nuclei in the Galaxy. We further examine whether such outbursts can fully account for the reported ˜3 Msun of 26Al needed to explain the Galactic 1.809 MeV γ-ray line emissions. We estimate that a minimum mass of 1.2 Msun for ONeMg white dwarfs in binaries is needed in order for nova outbursts to be able to produce the observed ˜3 Msun of 26Al over the mean lifetime of this nucleus. However, this estimate is based on the particular initial conditions we have chosen for the sequence of models presented in this paper, and on the assumption that the production of cataclysmic variables with ONeMg white dwarfs is not significantly less than that assumed for CO white dwarfs in the same mass range.
Politano Michael
Sparks Warren M.
Starrfield Summer
Truran Jame. W.
Weiss Alexander
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