NASA Technical Reports Server (NTRS) : Accretion pdf

NASA Technical Reports Server (NTRS) : Accretion

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Description of the Book:

The first self consistent shock models for the AM Herculis-type systems successfully identified the dominant physical processes and their signatures. These homogenous shock models predict unpolarized, Rayleigh-Jeans optical spectra with sharp cutoffs and rising polarizations as the shocks become optically thin in the ultraviolet. However, the observed energy distributions are generally flat with intermediate polarizations over a broad optical band. These and other observational evidence support a non-homogenous accretion profile which may extend over a considerable fraction of the stellar surface. Both the fundamental assumptions underlying the canonical 1-D shock model and the extension of this model to inhomogenous accretion shocks were identified, for both radial and linear structures. The observational evidence was also examined for tall shocks and little evidence was found for relative shock heights in excess of h/R(1) greater than or equal to 0.1. For several systems, upper limits to the shock height can be obtained from either x ray or optical data.

These lie in the region h/R(1) is approximately 0.01 and are in general agreement with the current physical picture for these systems. The quasi-periodic optical variations observed in several magnetic variables may eventually prove to be a major aid in further understanding their accretion shock geometries

• Creator/s: NASA Technical Reports Server (NTRS
• Date: 7/1/1988
• Year: 1988
• Book Topics/Themes: NASA Technical Reports Server (NTRS), CATACLYSMIC VARIABLES, MAGNETIC STARS, SHOCK WAVES, STELLAR MASS ACCRETION, STELLAR MODELS, ACCRETION DISKS, BREMSSTRAHLUNG, CANONICAL FORMS, ENERGY DISTRIBUTION, MATHEMATICAL MODELS, SELF CONSISTENT FIELDS, Stockman, H. S

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