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2004 February 20

Volume 602, Number 2
The Astrophysical Journal, 602:931–937, 2004 February 20
© 2004. The American Astronomical Society. All rights reserved. Printed in U.S.A.
DOI: 10.1086/381086

On Heavy Element Enrichment in Classical Novae

A. Alexakis,1,2

A. C. Calder,1,3

A. Heger,1,4,5

E. F. Brown,1,3

L. J. Dursi,1,3

J. W. Truran,1,3,4

R. Rosner,1,2,3,4

D. Q. Lamb,1,3,4

F. X. Timmes,1,3

B. Fryxell,1,4

M. Zingale,6

P. M. Ricker,7,8 and

K. Olson1,9

ABSTRACT

Many classical nova ejecta are enriched in CNO and Ne. Rosner and coworkers recently suggested that the enrichment might originate in the resonant interaction between large-scale shear flows in the accreted H/He envelope and gravity waves at the interface between the envelope and the underlying C/O white dwarf (WD). The shear flow amplifies the waves, which eventually form cusps and break. This wave breaking injects a spray of C/O into the superincumbent H/He. Using two-dimensional simulations, we formulate a quantitative expression for the amount of C/O per unit area that can be entrained, at saturation, into the H/He. The fraction of the envelope that is enriched depends on the horizontal distribution of shear velocity and the density contrast between the C/O WD and the H/He layer but is roughly independent of the vertical shape of the shear profile. Using this parameterization for the mixed mass, we then perform several one-dimensional Lagrangian calculations of an accreting WD envelope and consider two scenarios: that the wave breaking and mixing is driven by the convective flows and that the mixing occurs prior to the onset of convection. In the absence of enrichment prior to ignition, the base of the convective zone, as calculated from mixing-length theory with the Ledoux instability criterion, does not reach the C/O interface. As a result, there is no additional mixing, and the runaway is slow. In contrast, the formation of a mixed layer during the accretion of H/He, prior to ignition, causes a more violent runaway. The envelope can be enriched by 25% of C/O by mass (consistent with that observed in some ejecta) for shear velocities, over the surface, with Mach numbers 0.4.

Received 2003 July 3; accepted 2003 October 28

Subject headings:

hydrodynamics—methods: numerical—novae, cataclysmic variables—nuclear reactions, nucleosynthesis, abundances—waves

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  • 1Center for Astrophysical Thermonuclear Flashes, University of Chicago, Chicago, IL 60637; .

  • 2Department of Physics, University of Chicago, Chicago, IL 60637.

  • 3Department of Astronomy and Astrophysics, University of Chicago, Chicago, IL 60637.

  • 4Enrico Fermi Institute, University of Chicago, Chicago, IL 60637.

  • 5Los Alamos National Laboratory, Theoretical Astrophysics Group, Los Alamos, NM 87545.

  • 6Department of Astronomy and Astrophysics, University of California, Santa Cruz, CA 95064.

  • 7Department of Astronomy, University of Illinois, Urbana, IL 61801.

  • 8National Center for Supercomputing Applications, Urbana, IL 61801.

  • 9UMBC/GEST Center, NASA Goddard Space Flight Center, Greenbelt, MD 20771.

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