Energy-Momentum of a regular MMaS-class black hole
Owen Patashnick
TL;DR
This paper calculates the energy and momentum of a regular MMaS-class black hole using Einstein and Papapetrou definitions, supporting the Cooperstock hypothesis and highlighting inconsistencies in other methods.
Contribution
It provides a detailed comparison of energy-momentum calculations for a regular black hole using different definitions, emphasizing the most consistent approaches.
Findings
Einstein and Papapetrou definitions yield consistent results.
Other definitions produce contradictory and less reasonable results.
Results support the Cooperstock hypothesis.
Abstract
We compute the energy and momentum of a regular black hole of type defined by Mars, Martin-Prats, and Senovilla using the Einstein and Papapetrou definitions for energy-momentum density. Some other definitions of energy-momentum density are shown to give mutually contradictory and less reasonable results. Results support the Cooperstock hypothesis.
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