Apparent radii of neutron stars and equation of state of dense matter

Abstract

Apparent (radiation) radius of neutron star,R∞, depends on the star gravitational mass in quite a different way than the standard coordinate radius in the Schwarzschild metric, R. We show that, for a broad set of equations of state of dense matter, R∞(Mmax) for the configurations with maximum allowable masses is very close to the absolute lower bound on R∞ at fixed M, resulting from the very definition of R∞. Also, the value of Rinfty at given M, corresponding to the maximum compactness (minimum R) of neutron star consistent with general relativity and condition vsound<c, is only 0.6% higher than this absolute lower bound. Theoretical predictions for R∞ are compared with existing observational estimates of the apparent radii of neutron stars.

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