Breaking of isospectrality of quasinormal modes in nonrotating loop quantum gravity black holes

Del Corral, Daniel; Olmedo Nieto, Javier Antonio

doi:10.1103/PhysRevD.105.064053

PhysRevD.105.064053.pdf (394.4Kb)

Identificadores

URI: http://hdl.handle.net/10481/74805

DOI: 10.1103/PhysRevD.105.064053

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Editorial

American Physical Society

Fecha

2022-03-28

Referencia bibliográfica

Del Corral, D. & Olmedo, J. Breaking of isospectrality of quasinormal modes in nonrotating loop quantum gravity black holes. PHYSICAL REVIEW D 105, 064053 (2022). DOI: [10.1103/PhysRevD.105.064053]

Patrocinador

Spanish Government PID2020– 118159 GB-C43 PID2019–105943 GB-I00; Operative Program FEDER2014-2020 Junta de Andalucía-Consejería de Economía y Conocimiento E-FQM- 262-UGR18 Universidad de Granada; UI/BD/151491/ 2021 Portuguese Agency Fundao para a Cincia e a Tecnologia; Fundao para a Cincia e a Tecnologia Grant No. UIDB/MAT/00212/2020

Resumen

We study the quasinormal frequencies of three effective geometries of nonrotating regular black holes derived from loop quantum gravity. Concretely, we consider the Ashtekar-Olmedo-Singh and two Gambini- Olmedo-Pullin prescriptions. We compute the quasinormal frequencies of axial and polar perturbations adopting a WKB method. We show that they differ from those of classical general relativity and, more importantly, that isospectrality is broken. Nevertheless, these deviations are tiny, even for microscopic black holes, and they decay following an inverse power law of the size of the mass of the black holes. For the sake of completeness, we also analyze scalar and vector perturbations, reaching similar conclusions.

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