Quasinormal modes of modified gravity (MOG) black holes

Luciano Manfredi; Jonas Mureika; John Moffat

Physics Letters B (Apr 2018)

Quasinormal modes of modified gravity (MOG) black holes

Luciano Manfredi,
Jonas Mureika,
John Moffat

Affiliations

Luciano Manfredi: Department of Physics, Loyola Marymount University, Los Angeles, CA 90045-2659, United States
Jonas Mureika: Department of Physics, Loyola Marymount University, Los Angeles, CA 90045-2659, United States; Corresponding author.
John Moffat: Perimeter Institute for Theoretical Physics, Waterloo, Ontario N2L 2Y5, Canada

Journal volume & issue: Vol. 779
pp. 492 – 497

Abstract

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The Quasinormal modes (QNMs) for gravitational and electromagnetic perturbations are calculated in a Scalar–Tensor–Vector (Modified Gravity) spacetime, which was initially proposed to obtain correct dynamics of galaxies and galaxy clusters without the need for dark matter. It is found that for the increasing model parameter α, both the real and imaginary parts of the QNMs decrease compared to those for a standard Schwarzschild black hole. On the other hand, when taking into account the 1/(1+α) mass re-scaling factor present in MOG, Im(ω) matches almost identically that of GR, while Re(ω) is higher. These results can be identified in the ringdown phase of massive compact object mergers, and are thus timely in light of the recent gravitational wave detections by LIGO.

Published in Physics Letters B

ISSN: 0370-2693 (Print); 1873-2445 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: http://www.journals.elsevier.com/physics-letters-b/

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