Applying the starquake model to study the formation of elastic mountains on spinning neutron stars
Applying the starquake model to study the formation of elastic mountains on spinning neutron stars
When a neutron star is spun-up or spun-down, the changing strains in its solid elastic crust can give rise to sudden fractures known as starquakes. Early interest in starquakes focused on their possible connection to pulsar glitches. While modern glitch models rely on pinned superfluid vorticity rather than crustal fracture, starquakes may nevertheless play a role in the glitch mechanism. Recently, there has been interest in the issue of starquakes resulting in non-axisymmetric shape changes, potentially linking the quake phenomenon to the building of neutron star mountains, which would then produce continuous gravitational waves. Motivated by this issue, we present a simple model that extends the energy minimisation-based calculations, originally developed to model axisymmetric glitches, to also include non-axisymmetric shape changes. We show that the creation of a mountain in a quake necessarily requires a change in the axisymmetric shape too. We apply our model to the specific problem of the spin-up of an initially non-rotating star, and estimate the maximum mountain that can be built in such a process, subject only to the constraints of energy and angular momentum conservation.
astro-ph.HE, gr-qc
2763–2777
Gangwar, Yashaswi
b9bfbf2c-8747-4162-a484-03508a24111d
Jones, David Ian
b8f3e32c-d537-445a-a1e4-7436f472e160
17 July 2024
Gangwar, Yashaswi
b9bfbf2c-8747-4162-a484-03508a24111d
Jones, David Ian
b8f3e32c-d537-445a-a1e4-7436f472e160
Gangwar, Yashaswi and Jones, David Ian
(2024)
Applying the starquake model to study the formation of elastic mountains on spinning neutron stars.
Monthly Notices of the Royal Astronomical Society, 532 (2), .
(doi:10.1093/mnras/stae1671).
Abstract
When a neutron star is spun-up or spun-down, the changing strains in its solid elastic crust can give rise to sudden fractures known as starquakes. Early interest in starquakes focused on their possible connection to pulsar glitches. While modern glitch models rely on pinned superfluid vorticity rather than crustal fracture, starquakes may nevertheless play a role in the glitch mechanism. Recently, there has been interest in the issue of starquakes resulting in non-axisymmetric shape changes, potentially linking the quake phenomenon to the building of neutron star mountains, which would then produce continuous gravitational waves. Motivated by this issue, we present a simple model that extends the energy minimisation-based calculations, originally developed to model axisymmetric glitches, to also include non-axisymmetric shape changes. We show that the creation of a mountain in a quake necessarily requires a change in the axisymmetric shape too. We apply our model to the specific problem of the spin-up of an initially non-rotating star, and estimate the maximum mountain that can be built in such a process, subject only to the constraints of energy and angular momentum conservation.
Text
2405.00553v2
- Author's Original
Text
stae1671
- Version of Record
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Accepted/In Press date: 3 July 2024
e-pub ahead of print date: 9 July 2024
Published date: 17 July 2024
Additional Information:
7 figures
Keywords:
astro-ph.HE, gr-qc
Identifiers
Local EPrints ID: 493098
URI: http://eprints.soton.ac.uk/id/eprint/493098
ISSN: 1365-2966
PURE UUID: 0d87760d-96a8-4a26-a4b3-6fff86aaaca4
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Date deposited: 22 Aug 2024 17:08
Last modified: 27 Aug 2024 01:36
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Author:
Yashaswi Gangwar
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