Periodic analogues of the Kerr solutions: a numerical study

Peraza, Javier - Reiris Ithurralde, Martín - Ortiz, Omar

Resumen:

In recent years black hole configurations with non standard topology or with non standard asymptotic have gained considerable attention. In this article we carry out numerical investigations aimed to find periodic coaxial configurations of co-rotating 3+1 vacuum black holes, for which existence and uniqueness has not yet been theo- retically proven. The aimed configurations would extend Myers/Korotkin-Nicolai’s family of non-rotating (static) coaxial arrays of black holes. We find that numerical solutions with a given value for the area A and for the angular momentum J of the horizons appear to exist only when the separation between consecutive horizons is larger than a certain critical value that depends only on A and |J|. We also establish that the solutions have the same Lewis’s cylindrical asymptotic as Stockum’s infinite rotating cylinders. Below the mentioned critical value the rotational energy appears to be too big to sustain a global equilibrium and a singularity shows up at a finite distance from the bulk. This phenomenon is a relative of Stockum’s asymp-totic’s collapse, manifesting when the angular momentum (per unit of axial length) reaches a critical value compared to the mass (per unit of axial length), and that results from a transition in the Lewis’s class of the cylindrical exterior solution. This remarkable phenomenon seems to be unexplored in the context of coaxial arrays of black holes. Ergospheres and other global properties are also presented in detail.


Detalles Bibliográficos
2022
VACUUM BLACK HOLES
STOCKUM'S CYLINDRIC SOLUTIONS
MYERS/KOROTKIN-NICOLAI SOLUTIONS
GENERAL RELATIVITY AND QUANTUM COSMOLOGY
Inglés
Universidad de la República
COLIBRI
https://hdl.handle.net/20.500.12008/44822
Acceso abierto
Licencia Creative Commons Atribución - No Comercial - Sin Derivadas (CC - By-NC-ND 4.0)