The shadow and quasinormal modes of the asymptotically flat hairy black holes with a dilaton potential

Abstract

In this article, the shadow and the quasinormal modes (QNMs) of an exact asymptotically flat hairy electrically charged black hole solution with a dilaton potential are investigated. Using the constraint equation among the integration constant η of the gravitational field, the mass M, the electric charge Q and the coupling constant between the U(1) field and the dilaton field, we find that the shadow radii, the Lyapunov exponent λ and the coordinate angular velocity c only significantly affected by if the Q is close to the extremal value, especially when approaches to one. Furthermore, the QNMs are numerically computed by using the Hatsuda method and verify with the higher-order WKB approximations with the Pad\'e summation. We find that the QNMs are close to that of the low energy limit of the string theory when is large enough. In the eikonal limit, the real and imaginary parts are proved to be given by c and λ, respectively.