Exploring Torus Black-Holes In (1+3)- Dimensions: A Novel Approach to Higher Genus Solution

Authors

  • E. GarcÌa-Rodriguez

  • M. Medina

  • J. A. Nieto

Keywords:

torus black-hole, (1 + 3)-dimensional general relativity, higher genus, metric ansatz

Abstract

A torus black-hole solution of the vacuum gravitational field equation of general relativity in 1 3 -dimensions is obtained Starting with a metric ansatz associated with the torus our method is based on straightforward computations the usual geometric mathematical tools of the Christoffel symbols and the Riemann tensor Specifically after deriving such mathematical tools the field equations of general relativity are considered The resultatning equations are properly combained to find the solution Moreover the novelty and potential implications of this solution emerges from the fact that is based on a coordinate transformation metric ansatz This provides with broad implications and future research directions In particular we argue that our formalism can properly be used for a search of higher genus black-hole solution

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How to Cite

E. GarcÌa-Rodriguez, M. Medina, & J. A. Nieto. (2024). Exploring Torus Black-Holes In (1+3)- Dimensions: A Novel Approach to Higher Genus Solution. Global Journal of Science Frontier Research, 24(F2), 7–16. Retrieved from https://journalofscience.org/index.php/GJSFR/article/view/102850

Exploring Torus Black-Holes In (1+3)- Dimensions: A Novel Approach to Higher Genus Solution

Published

2024-06-28