Regular black hole with sub-Planckian curvature and suppressed exponential mass inflation

Abstract

We construct a static spherically symmetric regular black hole with a Minkowski core, and a degenerate inner horizon with vanishing surface gravity. The spacetime contains a non-extremal outer horizon and exhibits two notable features. Firstly, in the large-mass regime with r+=2M, the Kretschmann scalar becomes nearly independent of the ADM mass and is mainly controlled by the inner horizon radius r-, so that the curvature of spacetime remains sub-Planckian everywhere by choosing r- appropriately. Secondly, the near inner horizon amplification is softened from exponential to power-law behavior. In particular, within the double-null shell and Ori models, the internal Misner-Sharp mass remains finite at late times and approaches r-/2.