Geometry of a generalized uncertainty-inspired spacetime
Abstract
We examine the geometry of a generalized uncertainty-inspired quantum black hole. The diagonal line element is not t-r symmetric, i.e. g00 -1/g11, which leads to an interesting approach to resolving the classical curvature singularity. In this paper, we show, in Schwarzschild coordinates, the r = 0 coordinate location is a null surface which is not a transition surface or leads to a black bounce. We find the expansion of null geodesic congruences in the interior turn around then vanishes at r = 0, and the energy conditions are predominately violated indicating a repulsive gravitational core. In addition, we show that the line element admits a wormhole solution which is not traversable, and the black hole at its vanishing horizon radius could be interpreted as a remnant.
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