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5 - Nova atmospheres and winds

Published online by Cambridge University Press:  10 October 2009

Michael F. Bode
Affiliation:
Liverpool John Moores University
Aneurin Evans
Affiliation:
Keele University
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Summary

Introduction

The modeling and analysis of early nova spectra have made significant progress since the first edition of this book. The main culprit is the author, via the construction of detailed model atmospheres and synthetic spectra for novae (Hauschildt et al., 1992, 1994a,b, 1995, 1996, 1997; Pistinner et al., 1995; Schwarz et al., 1997; Short et al., 1999; Schwarz et al., 2001; Short et al., 2001; Shore et al., 2003).

In the early stages of the nova outburst, the spectrum is formed in an optically very thick (in both lines and continua) shell with a flat density profile, leading to very extended continuum and line-forming regions (hereafter, CFR and LFR respectively). The large variation of the physical conditions inside the spectrum-forming region makes the classical term ‘photosphere’ not very useful for novae. The large geometrical extension leads to a very large electron temperature gradient within the CFR and LFR, allowing for the observed simultaneous presence of several ionization stages of many elements. Typically, the relative geometrical extension Rout/Rin of a nova atmosphere is ∼ 100–1000, which is much larger than the geometrical extension of hydrostatic stellar atmospheres (even in giants Rout/Rin is typically less than 2) or supernovae (SNe).

The electron temperatures and gas pressures typically found in nova photospheres lead to the presence of a large number of spectral lines, predominantly Fe-group elements, in the LFR and a corresponding influence of line blanketing on the emergent spectrum.

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Classical Novae , pp. 102 - 120
Publisher: Cambridge University Press
Print publication year: 2008

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