Black hole superradiant instability for massive spin-2 fields
Black hole superradiant instability for massive spin-2 fields
Due to coherent superradiant amplification, massive bosonic fields can trigger an instability in spinning black holes, tapping their energy and angular momentum and forming macroscopic Bose-Einstein condensates around them. This phenomenon produces gaps in the mass-spin distribution of astrophysical black holes, a continuous gravitational-wave signal emitted by the condensate, and several environmental effects relevant for gravitational-wave astronomy and radio images of black holes. While the spectrum of superradiantly unstable mode is known in great detail for massive scalar (spin-0) and vector (spin-1) perturbations, so far only approximated results were derived for the case of massive tensor (spin-2) fields, due to the nonseparability of the field equations. Here, solving a system of ten elliptic partial differential equations, we close this program and compute the spectrum of the most unstable modes of a massive spin-2 field for generic black-hole spin and boson mass, beyond the hydrogenic approximation and including the unique dipole mode that dominates the instability in the spin-2 case. We find that the instability timescale for this mode is orders of magnitude shorter than for any other superradiant mode, yielding much stronger constraints on massive spin-2 fields. These results pave the way for phenomenological studies aimed at constraining beyond Standard Model scenarios, ultralight dark matter candidates, and extensions to General Relativity using gravitational-wave and electromagnetic observations, and have implications for the phase diagram of vacuum solutions of higher-dimensional gravity.
gr-qc, astro-ph.HE, hep-ph, hep-th
Dias, Oscar J. C.
f01a8d9b-9597-4c32-9226-53a6e5500a54
Lingetti, Giuseppe
10331b81-91f5-4296-b5a0-7954abc65d0d
Pani, Paolo
84ac267c-2b9c-43cf-8ce5-88c8d2f5cffd
Santos, Jorge E.
6e5a1703-a14c-4ef6-bfe4-7e4c5177c274
Dias, Oscar J. C.
f01a8d9b-9597-4c32-9226-53a6e5500a54
Lingetti, Giuseppe
10331b81-91f5-4296-b5a0-7954abc65d0d
Pani, Paolo
84ac267c-2b9c-43cf-8ce5-88c8d2f5cffd
Santos, Jorge E.
6e5a1703-a14c-4ef6-bfe4-7e4c5177c274
[Unknown type: UNSPECIFIED]
Abstract
Due to coherent superradiant amplification, massive bosonic fields can trigger an instability in spinning black holes, tapping their energy and angular momentum and forming macroscopic Bose-Einstein condensates around them. This phenomenon produces gaps in the mass-spin distribution of astrophysical black holes, a continuous gravitational-wave signal emitted by the condensate, and several environmental effects relevant for gravitational-wave astronomy and radio images of black holes. While the spectrum of superradiantly unstable mode is known in great detail for massive scalar (spin-0) and vector (spin-1) perturbations, so far only approximated results were derived for the case of massive tensor (spin-2) fields, due to the nonseparability of the field equations. Here, solving a system of ten elliptic partial differential equations, we close this program and compute the spectrum of the most unstable modes of a massive spin-2 field for generic black-hole spin and boson mass, beyond the hydrogenic approximation and including the unique dipole mode that dominates the instability in the spin-2 case. We find that the instability timescale for this mode is orders of magnitude shorter than for any other superradiant mode, yielding much stronger constraints on massive spin-2 fields. These results pave the way for phenomenological studies aimed at constraining beyond Standard Model scenarios, ultralight dark matter candidates, and extensions to General Relativity using gravitational-wave and electromagnetic observations, and have implications for the phase diagram of vacuum solutions of higher-dimensional gravity.
Text
2304.01265v1
- Author's Original
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Submitted date: 3 April 2023
Keywords:
gr-qc, astro-ph.HE, hep-ph, hep-th
Identifiers
Local EPrints ID: 478310
URI: http://eprints.soton.ac.uk/id/eprint/478310
PURE UUID: 47ee5ad3-a04d-4318-9180-0416f3e60996
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Date deposited: 27 Jun 2023 17:30
Last modified: 18 Mar 2024 03:29
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Contributors
Author:
Giuseppe Lingetti
Author:
Paolo Pani
Author:
Jorge E. Santos
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