Charged (A)dS black hole solutions in conformal teleparallel equivalent of general relativity
Document Type
Article
Publication Date
2-15-2020
Abstract
© 2020 American Physical Society. We continue our study in four dimensions to derive noncharged and charged (anti)-de Sitter black hole solutions in conformal teleparallel equivalent of general relativity. The noncharged and charged equations of motion are applied to a spherically symmetric tetrad and the nonlinear differential equations are derived. It is shown that the output solutions of the two cases are identical to those obtained in teleparallel equivalent theory to general relativity. As a result, it is found that in the conformal teleparallel equivalent theory to general relativity, the scalar field cannot influence on the manifold of spherical symmetry, i.e., the scalar field must equal one in order to have a well-known asymptote spacetime.
Recommended Citation
Nashed, G. G.L. and Bamba, Kazuharu, "Charged (A)dS black hole solutions in conformal teleparallel equivalent of general relativity" (2020). Centre for Theoretical Physics. 46.
https://buescholar.bue.edu.eg/centre_theoretical_physics/46