Zero Mass limit of Kerr-MOG Black Hole Equals Wormhole

TL;DR

This paper demonstrates that the zero mass limit of Kerr-MOG black holes results in a wormhole, contrasting with Kerr-Newman black holes, and explores their physical and topological properties within modified gravity.

Contribution

It establishes the equivalence of the zero mass Kerr-MOG black hole to a wormhole and derives its Kerr-Schild form, extending the understanding of black hole limits in modified gravity.

Findings

Zero mass Kerr-MOG black hole is a wormhole.

Kerr-Newman black hole's zero mass limit is not a wormhole unless charge is also zero.

Derived Kerr-Schild form of Kerr-MOG black hole.

Abstract

It has been argued in existing literature that the zero mass limit of Kerr spacetime corresponds to either flat Minkowski spacetime or a wormhole exhibiting a locally flat geometry. In this study, we examine that the zero mass limit of the Kerr-MOG black hole is equivalent to a wormhole. Moreover, we derive the Kerr-Schild form of the Kerr-MOG black hole through specific coordinate transformations. We further investigate the physical and topological characteristics of the Kerr-MOG black hole within the framework of modified gravity. Our analysis also includes a discussion of the wormhole using cylindrical coordinates, which comprises two distinct coordinate patches. Furthermore, we extend our analysis to the Kerr-Newman black hole and show that the \emph{zero mass limit of the Kerr-Newman black hole does not yield a wormhole}. However, if we impose an additional criterion such that \emph{both the mass parameter and the charge parameters are equal to zero}, then the Kerr-Newman black hole will be a wormhole.