Dilatonic dyon black hole solutions

Abstract

Dilatonic black hole dyon solutions with arbitrary dilatonic coupling constant λ ≠ 0 and canonical sign = +1 for scalar field kynetic term are considered. These solutions are defined up to solutions of two master equations for moduli funtions. For λ2 ≠ 1/2 the solutions are extended to = 1, where = -1 corresponds to ghost (phantom) scalar field. Some physical parameters of the solutions: gravitational mass, scalar charge, Hawking temperature, black hole area entropy and parametrized post-Newtonian (PPN) parameters β and γ are obtained. It is shown that PPN parameters do not depend on scalar field coupling λ and . Two group of bounds on gravitational mass and scalar charge (for fixed and arbitrary extremality parameter μ >0) are found by using a certain conjecture on parameters of solutions when 1 +2 λ2 > 0. These bounds are verified numerically for certain examples. By product we are led to well-known lower bound on mass which was obtained earlier by Gibbons, Kastor, London, Townsend and Traschen by using spinor techniques.