Merger-inspired rotation laws and the low-T/W instability in neutron stars
Merger-inspired rotation laws and the low-T/W instability in neutron stars
Implementing a family of differential rotation laws inspired by binary neutron-star merger remnants, we consider the impact of the rotation profile on the low-T/W instability. We use time evolutions of the linearised dynamical equations, in Newtonian gravity, to study non-axisymmetric oscillations and identify the unstable modes. The presence and evolution of the low-T/W instability is monitored with the canonical energy and angular momentum, while the growth time is extracted from the evolved kinetic energy. The results for the new rotation laws highlight similarities with the commonly considered j-constant law. The instability sets in when an oscillation mode co-rotates with the star (i.e. whenever there is a point where the mode's pattern speed matches the bulk angular velocity) and grows faster deep inside the co-rotation region. However, the new profiles add features, like an additional co-rotation point to the problem, which affect the onset of instability. The rotation laws influence more drastically the oscillation frequencies of the l=m=2 f-mode in fast rotating models, but affect the instability growth time at any rotation rate. We also identify models where the low-T/W instability appears to be triggered by inertial modes. We discuss to what extent the inferred qualitative behaviour is likely to be of observational relevance.
Passamonti, A.
d9c7544a-5b0e-4230-9caa-f5a9a6fe9f13
Andersson, N.
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Passamonti, A.
d9c7544a-5b0e-4230-9caa-f5a9a6fe9f13
Andersson, N.
2dd6d1ee-cefd-478a-b1ac-e6feedafe304
Passamonti, A. and Andersson, N.
(2020)
Merger-inspired rotation laws and the low-T/W instability in neutron stars.
Monthly Notices of the Royal Astronomical Society.
(Submitted)
Abstract
Implementing a family of differential rotation laws inspired by binary neutron-star merger remnants, we consider the impact of the rotation profile on the low-T/W instability. We use time evolutions of the linearised dynamical equations, in Newtonian gravity, to study non-axisymmetric oscillations and identify the unstable modes. The presence and evolution of the low-T/W instability is monitored with the canonical energy and angular momentum, while the growth time is extracted from the evolved kinetic energy. The results for the new rotation laws highlight similarities with the commonly considered j-constant law. The instability sets in when an oscillation mode co-rotates with the star (i.e. whenever there is a point where the mode's pattern speed matches the bulk angular velocity) and grows faster deep inside the co-rotation region. However, the new profiles add features, like an additional co-rotation point to the problem, which affect the onset of instability. The rotation laws influence more drastically the oscillation frequencies of the l=m=2 f-mode in fast rotating models, but affect the instability growth time at any rotation rate. We also identify models where the low-T/W instability appears to be triggered by inertial modes. We discuss to what extent the inferred qualitative behaviour is likely to be of observational relevance.
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Submitted date: 2020
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Local EPrints ID: 440930
URI: http://eprints.soton.ac.uk/id/eprint/440930
ISSN: 1365-2966
PURE UUID: a772c5b5-3354-4bde-aeaf-61b1f508a1a1
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Date deposited: 22 May 2020 16:40
Last modified: 17 Mar 2024 02:47
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A. Passamonti
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