Low-mass normal-matter atmospheres of strange stars and their radiation

Abstract

The quark surface of a strange star has a very low emissivity for X-ray photons. I find that a small amount of normal matter at the quark surface with temperature in the range 107 T_S mc2/k 6× 109 K is enough to produce X-rays with high luminosity, LX 1032- 1034( M/10-22M)2 erg s-1. For the total atmosphere mass M (10-20-10-19)M, this luminosity may be as high as the Eddington limit. The mean energy of X-ray photons which are radiated from such a low-mass atmosphere of a strange star is 102(TS/108 K)0.45 30-300 times larger than the mean energy of X-ray photons which are radiated from the surface of both a neutron star and a strange star with a massive normal-matter envelope, M 10-5M, for a fixed temperature at the stellar core. This raises the possibility that some black hole candidates with hard X-ray spectra are, in fact, such strange stars with a low-mass atmosphere. The X-ray emission from single strange stars is estimated.

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