Topological Charged Black Holes in High Dimensional Spacetimes and Their Formation from Gravitational Collapse of a Type II Fluid
Abstract
Topological charged black holes coupled with a cosmological constant in R2× XD-2 spacetimes are studied, where XD-2 is an Einstein space of the form (D-2)RAB = k(D-3) hAB. The global structure for the four-dimensional spacetimes with k = 0 is investigated systematically. The most general solutions that represent a Type II fluid in such a high dimensional spacetime are found, and showed that topological charged black holes can be formed from the gravitational collapse of such a fluid. When the spacetime is (asymptotically) self-similar, the collapse always forms black holes for k = 0, -1, in contrast to the case k = 1, where it can form either balck holes or naked singularities.
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