R-mode frequencies of slowly rotating relativistic neutron stars with realistic equations of state
R-mode frequencies of slowly rotating relativistic neutron stars with realistic equations of state
The frequencies of r-mode oscillations of rotating neutron stars can be useful for guiding and interpreting gravitational-wave and electromagnetic observations. The frequencies of slowly rotating, barotropic, and nonmagnetic Newtonian stars are well known but subject to various corrections. After making simple estimates of the relative strengths of these corrections, we conclude that relativistic corrections are likely to be the most important. For this reason we extend the formalism of Lockitch et al. [Phys. Rev. D 68, 124010 (2003)], who consider relativistic polytropes, to the case of realistic equations of state. This formulation results in perturbation equations which are solved using a spectral method. We find that for realistic equations of state, the r-mode frequency ranges from 1.39–1.57 times the spin frequency of the star when the relativistic compactness parameter (M/R) is varied over the astrophysically motivated interval 0.11–0.31. The results presented here are relevant to the design of gravitational wave and electromagnetic r-mode searches, and following a successful r-mode detection could help constrain the high-density equation of state.
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Idrisy, Ashikuzzaman
99ab15db-4583-46b3-b22a-541642f994e1
Owen, Benjamin J.
a045f7dd-29cb-412d-b447-54f3a142743d
Jones, D. I.
b8f3e32c-d537-445a-a1e4-7436f472e160
5 January 2015
Idrisy, Ashikuzzaman
99ab15db-4583-46b3-b22a-541642f994e1
Owen, Benjamin J.
a045f7dd-29cb-412d-b447-54f3a142743d
Jones, D. I.
b8f3e32c-d537-445a-a1e4-7436f472e160
Idrisy, Ashikuzzaman, Owen, Benjamin J. and Jones, D. I.
(2015)
R-mode frequencies of slowly rotating relativistic neutron stars with realistic equations of state.
Physical Review D, 91 (24001), .
(doi:10.1103/PhysRevD.91.024001).
Abstract
The frequencies of r-mode oscillations of rotating neutron stars can be useful for guiding and interpreting gravitational-wave and electromagnetic observations. The frequencies of slowly rotating, barotropic, and nonmagnetic Newtonian stars are well known but subject to various corrections. After making simple estimates of the relative strengths of these corrections, we conclude that relativistic corrections are likely to be the most important. For this reason we extend the formalism of Lockitch et al. [Phys. Rev. D 68, 124010 (2003)], who consider relativistic polytropes, to the case of realistic equations of state. This formulation results in perturbation equations which are solved using a spectral method. We find that for realistic equations of state, the r-mode frequency ranges from 1.39–1.57 times the spin frequency of the star when the relativistic compactness parameter (M/R) is varied over the astrophysically motivated interval 0.11–0.31. The results presented here are relevant to the design of gravitational wave and electromagnetic r-mode searches, and following a successful r-mode detection could help constrain the high-density equation of state.
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PhysRevD.91.024001
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Published date: 5 January 2015
Organisations:
Applied Mathematics
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Local EPrints ID: 404330
URI: http://eprints.soton.ac.uk/id/eprint/404330
ISSN: 1550-7998
PURE UUID: 7cad50b6-efb8-45ba-b9f5-3208c001a4df
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Date deposited: 05 Jan 2017 16:30
Last modified: 16 Mar 2024 03:06
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Author:
Ashikuzzaman Idrisy
Author:
Benjamin J. Owen
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