Gravitational Collapse of Massless Vector Field with Positive Cosmological Constant

Abstract

We investigate the dynamics of homogeneous gravitational collapse of a massless vector field in the presence of a positive cosmological constant . The corresponding density function (a) obtained for the massless vector field is inversely proportional to the fourth power of the scale factor a (t). The variation of the scale factor shows that for 0\, < 1, we obtain the gravitational collapse of the vector fields leading singularity formation in a finite comoving time resulting in a Blackhole such that with increasing , the singularity formation time, ts increases. For = 1, we obtain a(t) = 0, thus limiting the maximum value of , (w.r.t the initial density 0) for which the system could collapse under gravity.