Electric and magnetic black holes in a new nonlinear electrodynamics model

Abstract

A new nonlinear electrodynamics (NED) model is introduced in the form of a nonpolynomial Lagrangian which admits static spherical and also plane wave solutions in a flat space. Upon coupling with gravity the electric field is finite and comparable with the Born-Infeld counterpart. The electric and magnetic black hole solutions in the Einstein's gravity coupled with this NED model are presented. The solutions give both asymptotically and in the weak field limit Reissner-Nordstrom (RN) black hole and unlike the other known models our electric solution is expressed in terms of elementary functions in a closed form. We study the first law and derive the modified Smarr's formula for the electric type extension of our model. Considerable rich structure, especially thermodynamic ones, ranging from first to the second order phase transitions are added to the RN black hole of linear electrodynamics with this NED model. Having the exact solution for the metric function at our disposal we investigate the stability of the electric black hole from both the thermodynamical and causal points of view. (C) 2021 Elsevier Inc. All rights reserved.