Isotropic star in low-mass X-ray binaries and X-ray pulsars

Abstract

We present a model for compact stars in the low mass X-ray binaries(LMXBs) and X-ray pulsars using a metric given by John J. Matese and Patrick G. Whitman Matese and Whitman1980. Here the field equations are reduced to a system of two algebraic equations considering the isotropic pressure. Compact star candidates 4U 1820-30(radius=10km) in LMXBs, and Her X-1(radius=7.7km), SAX J 1808.4-3658(SS1)(radius=7.07km) and SAX J 1808.4-3658(SS2)(radius=6.35km) in X-ray pulsars satisfy all the energy conditions, TOV-equation and stability condition. From our model, we have derived mass(M), central density(0), suface density(b), central pressure(p0), surface pressure(pb) and surface red-shift(Zs) of the above mentioned stars, which are very much consistant with the observed/reported datasN. K. Glendenning1997,Gondek2000. We have also observe the adiabatic index(γ>4/3) of the above steller objects.