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Main Author: Stano, Michal
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.11746
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author Stano, Michal
author_facet Stano, Michal
contents The main goal of this thesis is to study the gravitational action for the Schwarzschild black hole and its subsequent regularisation from the perspective of general relativity and teleparallel gravity. The standard approach of general relativity requires the Einstein-Hilbert action to be supplemented with the Gibbons-Hawking-York (GHY) boundary term whenever the underlying spacetime contains a boundary. However, the total action is typically divergent, and thus it needs to be regularised by the so-called background subtraction. Next, we consider the teleparallel geometry characterised by the curvature-free teleparallel spin connection, all the while adopting the tetrad formalism. In contrast to general relativity, teleparallel spin connection is however left undetermined by the field equations. We argue that the correct choice of such a connection in principle regularizes the action as equally as the background subtraction, without the need of introducing any additional regulating terms. In the interior region of a black hole, the teleparallel approach agrees completely with the Gibbons-Hawking (GH) method, but in the exterior region, there appears to be a discrepancy in the overall factor of two. We investigate the origin of this problem by testing various frames, including the so-called proper and canonical frames. Finally, we explore the role of singular points in the action and their contributions to the surface terms structure as a possible remedy to this problem.
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spellingShingle Black Hole Action in Einstein's other Gravity
Stano, Michal
General Relativity and Quantum Cosmology
The main goal of this thesis is to study the gravitational action for the Schwarzschild black hole and its subsequent regularisation from the perspective of general relativity and teleparallel gravity. The standard approach of general relativity requires the Einstein-Hilbert action to be supplemented with the Gibbons-Hawking-York (GHY) boundary term whenever the underlying spacetime contains a boundary. However, the total action is typically divergent, and thus it needs to be regularised by the so-called background subtraction. Next, we consider the teleparallel geometry characterised by the curvature-free teleparallel spin connection, all the while adopting the tetrad formalism. In contrast to general relativity, teleparallel spin connection is however left undetermined by the field equations. We argue that the correct choice of such a connection in principle regularizes the action as equally as the background subtraction, without the need of introducing any additional regulating terms. In the interior region of a black hole, the teleparallel approach agrees completely with the Gibbons-Hawking (GH) method, but in the exterior region, there appears to be a discrepancy in the overall factor of two. We investigate the origin of this problem by testing various frames, including the so-called proper and canonical frames. Finally, we explore the role of singular points in the action and their contributions to the surface terms structure as a possible remedy to this problem.
title Black Hole Action in Einstein's other Gravity
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2503.11746