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A post-Newtonian approach to neutron star oscillations

A post-Newtonian approach to neutron star oscillations
A post-Newtonian approach to neutron star oscillations
Next-generation gravitational-wave detectors are expected to constrain the properties of extreme density matter via observations of static and dynamical tides in binary neutron star inspirals. The required modelling is straightforward in Newtonian gravity---where the tide can be represented in terms of a sum involving the star's oscillation modes---but not yet fully developed in general relativity---where the mode-sum approach is problematic. As a step towards more realistic models, we are motivated to explore the post-Newtonian (pN) approach to the problem (noting that the modes should still provide an adequate basis for a tidal expansion up to 2pN order). Specifically, in this paper we develop the pN framework for neutron star oscillations and explore to what extent the results remain robust for stars in the strong-field regime. Our numerical results show that the model is accurate for low-mass stars ($\lesssim 0.8M_{\odot}$), but becomes problematic for more massive stars. However, we demonstrate that the main issues can be resolved (at the cost of abandoning the consistency of the pN expansion) allowing us to extend the calculation into the neutron star regime. For canonical neutron stars ($\approx 1.4M_\odot$) our adjusted formulation provides the fundamental mode of the star with an accuracy comparable to that of the relativistic Cowling approximation. For lower mass stars our approach performs is significantly more accurate, suggesting that a pN formulation of the tidal problem is, indeed, warranted.
1365-2966
Yin, Shanshan
1a1d6d2f-3b19-4ac9-9151-e496b32be131
Andersson, Nils
2dd6d1ee-cefd-478a-b1ac-e6feedafe304
Gittins, Fabian
657ec875-fac3-4606-9dcd-591ef22fc9f6
Yin, Shanshan
1a1d6d2f-3b19-4ac9-9151-e496b32be131
Andersson, Nils
2dd6d1ee-cefd-478a-b1ac-e6feedafe304
Gittins, Fabian
657ec875-fac3-4606-9dcd-591ef22fc9f6

Yin, Shanshan, Andersson, Nils and Gittins, Fabian (2025) A post-Newtonian approach to neutron star oscillations. MNRAS, Volume. (doi:10.1088/1361-6382/ae1c16). (In Press)

Record type: Article

Abstract

Next-generation gravitational-wave detectors are expected to constrain the properties of extreme density matter via observations of static and dynamical tides in binary neutron star inspirals. The required modelling is straightforward in Newtonian gravity---where the tide can be represented in terms of a sum involving the star's oscillation modes---but not yet fully developed in general relativity---where the mode-sum approach is problematic. As a step towards more realistic models, we are motivated to explore the post-Newtonian (pN) approach to the problem (noting that the modes should still provide an adequate basis for a tidal expansion up to 2pN order). Specifically, in this paper we develop the pN framework for neutron star oscillations and explore to what extent the results remain robust for stars in the strong-field regime. Our numerical results show that the model is accurate for low-mass stars ($\lesssim 0.8M_{\odot}$), but becomes problematic for more massive stars. However, we demonstrate that the main issues can be resolved (at the cost of abandoning the consistency of the pN expansion) allowing us to extend the calculation into the neutron star regime. For canonical neutron stars ($\approx 1.4M_\odot$) our adjusted formulation provides the fundamental mode of the star with an accuracy comparable to that of the relativistic Cowling approximation. For lower mass stars our approach performs is significantly more accurate, suggesting that a pN formulation of the tidal problem is, indeed, warranted.

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Submitted date: 2025
Accepted/In Press date: 5 November 2025
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Identifiers

Local EPrints ID: 506756
URI: http://eprints.soton.ac.uk/id/eprint/506756
DOI: doi:10.1088/1361-6382/ae1c16
ISSN: 1365-2966
PURE UUID: 5fa863db-bb95-443a-abfd-97b4f3a14a66
ORCID for Nils Andersson: ORCID iD orcid.org/0000-0001-8550-3843
ORCID for Fabian Gittins: ORCID iD orcid.org/0000-0002-9439-7701

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Date deposited: 18 Nov 2025 17:35
Last modified: 20 Nov 2025 03:00

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Contributors

Author: Shanshan Yin
Author: Nils Andersson ORCID iD
Author: Fabian Gittins ORCID iD

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