Welcome to the upgraded BRAC University Institutional Repository. We are currently organizing collections after a recent system upgrade. Homepage category counters may temporarily show lower numbers while syncing, but over 27,000 repository items remain safe and accessible. Please use the search bar to find theses, scholarly outputs, and institutional documents.

A class of super dense stars models using charged analogues of Hajj-Boutros type relativistic fluid solutions

Loading...
Thumbnail Image

Publisher

© 2014, Springer Science+Business Media New York

Citation

Pant, N., Pradhan, N., & Murad, M. H. (2014). A class of super dense stars models using charged analogues of hajj-boutros type relativistic fluid solutions. International Journal of Theoretical Physics, 53(11), 3958-3969. doi:10.1007/s10773-014-2147-0

Abstract

We present a spherically symmetric solution of the general relativistic field equations in isotropic coordinates for perfect charged fluid, compatible with a super dense star modeling. The solution is well behaved for all the values of Schwarzschild parameter u lying in the range 0 < u < 0.1727 for the maximum value of charge parameter K = 0.08163. The maximum mass of the fluid distribution is calculated by using stellar surface density as ρb = 4.6888×1014g cm−3. Corresponding to K = 0.08 and umax = 0.1732, the resulting well behaved solution has a maximum mass M = 0.9324M⊙ and radius R = 8.00 and by assuming ρb = 2×1014g cm−3 the solution results a stellar configuration with maximum mass M = 1.43M⊙ and radius Rb = 12.25 km. The maximum mass is found increasing with increasing K up to 0.08. The well behaved class of relativistic stellar models obtained in this work might has astrophysical significance in the study of internal structure of compact star such as neutron star or self-bound strange quark star like Her X-1.

Description

This article was published in the International Journal of Theoretical Physics [© 2014, Springer Science+Business Media New Yor] and the definite version is available at : http://dx.doi.org/10.1007/s10773-014-2147-0. The Journal's website is at: http://link.springer.com/article/10.1007%2Fs10773-014-2147-0

Type

Article