New hairy black hole solutions with a dilaton potential
Abstract
We consider black hole solutions with a dilaton field possessing a nontrivial potential approaching a constant negative value at infinity. The asymptotic behaviour of the dilaton field is assumed to be slower than that of a localized distribution of matter. A nonabelian SU(2) gauge field is also included in the total action. The mass of the solutions admitting a power series expansion in 1/r at infinity and preserving the asymptotic anti-de Sitter geometry is computed by using a counterterm subtraction method. Numerical arguments are presented for the existence of hairy black hole solutions for a dilaton potential of the form V(φ)=C1 (2α1 φ)+C2 (2α2 φ)+C3, special attention being paid to the case of N=4, D=4 gauged supergravity model of Gates and Zwiebach.
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