A new class of solutions of anisotropic charged distributions on pseudo-spheroidal spacetime

Abstract

In the present article a new class of exact solutions of Einstein's field equations for charged anisotropic distribution is obtained on the background of pseudo-spheroidal spacetime characterized by the metric potential grr=1+Kr2R21+r2R2, where K and R are geometric parameters of the spacetime. The radial pressure pr and electric field intensity E are taken in the form 8π pr = K-1R2(1-r2R2 )(1+Kr2R2 )2 and E2 = α(K-1)r2R2R2(1+Kr2R2 )2. The bounds of geometric parameter K and the parameter α appearing in the expression of E2 are obtained by imposing the requirements for a physically acceptable model. It is found that the model is in good agreement with the observational data of number of compact stars like 4U 1820-30, PSR J1903+327, 4U 1608-52, Vela X-1, PSR J1614-2230, Cen X-3 given by Gangopadhyay et al [Gangopadhyay T., Ray S., Li X-D., Dey J. and Dey M., Mon. Not. R. Astron. Soc. 431 (2013) 3216]. When α = 0, the model reduces to the uncharged anisotropic distribution given by Ratanpal et al. [Ratanpal B. S., Thomas V. O. and Pandya D. M., arXiv:1506.08512 [gr-qc](2015)]