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A spherical accretion model of Cyg X-1

Nature volume 258pages 583–584 (1975)Cite this article

Abstract

THE binary X-ray source Cyg X-1 is widely believed to be a black hole, and most current models for explaining its X-ray spectrum1 assume an accretion disk. The reason for requiring a disk, rather than a spherical accretion flow, is that earlier investigations of the properties of spherically accreting black holes seemed to indicate that, for the mass transfer rates required to give the observed luminosities of 1037–1038 erg s−1, the cooling time of the gas would be so short compared to the freefall time that the gas would arrive essentially cold at the Schwarzschild radius, and there being no solid surface to transform the infall kinetic energy into thermal energy, very little of this would be radiated away2–4.

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References

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Author notes

  1. P. MÉSZÁROS

    Present address: Max-Planck Institut für Astrophysik, 8, München, 40, West Germany

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  1. Institute of Astronomy, University of Cambridge, UK

    P. MÉSZÁROS

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  1. P. MÉSZÁROS
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MÉSZÁROS, P. A spherical accretion model of Cyg X-1. Nature 258, 583–584 (1975). https://doi.org/10.1038/258583a0

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