Investigating tidal heating in neutron stars via gravitational Raman scattering
Investigating tidal heating in neutron stars via gravitational Raman scattering
We present a scattering amplitude formalism to study the tidal heating effects of nonspinning neutron stars incorporating both worldline effective field theory and relativistic stellar perturbation theory. In neutron stars, tidal heating arises from fluid viscosity due to various scattering processes in the interior. It also serves as a channel for the exchange of energy and angular momentum between the neutron star and its environment. In the interior of the neutron star, we first derive two master perturbation equations that capture fluid perturbations accurate to linear order in frequency. Remarkably, these equations receive no contribution from bulk viscosity due to a peculiar adiabatic incompressibility which arises in stellar fluid for non-barotropic perturbations. In the exterior, the metric perturbations reduce to the Regge-Wheeler (RW) equation which we solve using the analytical Mano-Suzuki-Takasugi (MST) method. We compute the amplitude for gravitational waves scattering off a neutron star, also known as gravitational Raman scattering. From the amplitude, we obtain expressions for the electric quadrupolar static Love number and the leading dissipation number to all orders in compactness. We then compute the leading dissipation number for various realistic equation-of-state(s) and estimate the change in the number of gravitational wave cycles due to tidal heating during inspiral in the LIGO-Virgo-KAGRA (LVK) band.
gr-qc, astro-ph.HE, hep-ph, hep-th
Saketh, M. V. S.
3751edb6-79a7-4e17-95a5-d4c687b42a2d
Zhou, Zihan
cc82f255-2f2b-496b-b251-bfc7e5303999
Ghosh, Suprovo
4408b6bd-fbf0-4ed7-a446-e602f5cca92d
Steinhoff, Jan
4c2fea91-3580-45ee-98ce-ae03b5068d1d
Chatterjee, Debarati
3e5440bf-b6de-40db-9bd5-b277f1112c2d
4 November 2024
Saketh, M. V. S.
3751edb6-79a7-4e17-95a5-d4c687b42a2d
Zhou, Zihan
cc82f255-2f2b-496b-b251-bfc7e5303999
Ghosh, Suprovo
4408b6bd-fbf0-4ed7-a446-e602f5cca92d
Steinhoff, Jan
4c2fea91-3580-45ee-98ce-ae03b5068d1d
Chatterjee, Debarati
3e5440bf-b6de-40db-9bd5-b277f1112c2d
Saketh, M. V. S., Zhou, Zihan, Ghosh, Suprovo, Steinhoff, Jan and Chatterjee, Debarati
(2024)
Investigating tidal heating in neutron stars via gravitational Raman scattering.
Physical Review D, 110 (10-15), [103001].
(doi:10.1103/PhysRevD.110.103001).
Abstract
We present a scattering amplitude formalism to study the tidal heating effects of nonspinning neutron stars incorporating both worldline effective field theory and relativistic stellar perturbation theory. In neutron stars, tidal heating arises from fluid viscosity due to various scattering processes in the interior. It also serves as a channel for the exchange of energy and angular momentum between the neutron star and its environment. In the interior of the neutron star, we first derive two master perturbation equations that capture fluid perturbations accurate to linear order in frequency. Remarkably, these equations receive no contribution from bulk viscosity due to a peculiar adiabatic incompressibility which arises in stellar fluid for non-barotropic perturbations. In the exterior, the metric perturbations reduce to the Regge-Wheeler (RW) equation which we solve using the analytical Mano-Suzuki-Takasugi (MST) method. We compute the amplitude for gravitational waves scattering off a neutron star, also known as gravitational Raman scattering. From the amplitude, we obtain expressions for the electric quadrupolar static Love number and the leading dissipation number to all orders in compactness. We then compute the leading dissipation number for various realistic equation-of-state(s) and estimate the change in the number of gravitational wave cycles due to tidal heating during inspiral in the LIGO-Virgo-KAGRA (LVK) band.
Text
2407.08327v3
- Accepted Manuscript
More information
Accepted/In Press date: 2 October 2024
Published date: 4 November 2024
Additional Information:
28 pages, 2 tables, 1 appendix, journal version
Keywords:
gr-qc, astro-ph.HE, hep-ph, hep-th
Identifiers
Local EPrints ID: 500958
URI: http://eprints.soton.ac.uk/id/eprint/500958
ISSN: 2470-0010
PURE UUID: f6b01f70-6f4f-4019-b3ae-1578341bdd84
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Date deposited: 19 May 2025 17:18
Last modified: 20 May 2025 02:17
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Contributors
Author:
M. V. S. Saketh
Author:
Zihan Zhou
Author:
Suprovo Ghosh
Author:
Jan Steinhoff
Author:
Debarati Chatterjee
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