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Thermal aspects of neutron star mergers

Thermal aspects of neutron star mergers
Thermal aspects of neutron star mergers

In order to extract maximal information from neutron-star merger signals, both gravitational and electromagnetic, we need to ensure that our theoretical models/numerical simulations faithfully represent the extreme physics involved. This involves a range of issues, with the finite temperature effects regulating many of the relevant phenomena. As a step toward understanding these issues, we explore the conditions for β-equilibrium in neutron star matter for the densities and temperatures reached in a binary neutron star merger. Using the results from our out-of-equilibrium merger simulation, we consider how different notions of equilibrium may affect the merger dynamics, raising issues that arise when attempting to account for these conditions in future simulations. These issues are both computational and conceptual. We show that the effects lead to, in our case, a softening of the equation of state in some density regions, and to composition changes that affect processes that rely on deviation from equilibrium, such as bulk viscosity, both in terms of the magnitude and the equilibration timescales inherent to the relevant set of reactions. We also demonstrate that it is difficult to determine exactly which equilibrium conditions are relevant in which regions of the matter due to the dependence on neutrino absorption, further complicating the calculation of the reactions that work to restore the matter to equilibrium.

2470-0010
Hammond, P.
2bd2a2cc-4d3a-40d9-a86f-c1f2aac935be
Hawke, I.
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Andersson, N.
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Hammond, P.
2bd2a2cc-4d3a-40d9-a86f-c1f2aac935be
Hawke, I.
fc964672-c794-4260-a972-eaf818e7c9f4
Andersson, N.
2dd6d1ee-cefd-478a-b1ac-e6feedafe304

Hammond, P., Hawke, I. and Andersson, N. (2021) Thermal aspects of neutron star mergers. Physical Review D, 104 (10), [103006]. (doi:10.1103/PhysRevD.104.103006).

Record type: Article

Abstract

In order to extract maximal information from neutron-star merger signals, both gravitational and electromagnetic, we need to ensure that our theoretical models/numerical simulations faithfully represent the extreme physics involved. This involves a range of issues, with the finite temperature effects regulating many of the relevant phenomena. As a step toward understanding these issues, we explore the conditions for β-equilibrium in neutron star matter for the densities and temperatures reached in a binary neutron star merger. Using the results from our out-of-equilibrium merger simulation, we consider how different notions of equilibrium may affect the merger dynamics, raising issues that arise when attempting to account for these conditions in future simulations. These issues are both computational and conceptual. We show that the effects lead to, in our case, a softening of the equation of state in some density regions, and to composition changes that affect processes that rely on deviation from equilibrium, such as bulk viscosity, both in terms of the magnitude and the equilibration timescales inherent to the relevant set of reactions. We also demonstrate that it is difficult to determine exactly which equilibrium conditions are relevant in which regions of the matter due to the dependence on neutrino absorption, further complicating the calculation of the reactions that work to restore the matter to equilibrium.

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Thermal aspects of neutron star mergers - Accepted Manuscript
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Accepted/In Press date: 7 October 2021
e-pub ahead of print date: 5 November 2021
Published date: 5 November 2021
Related URLs:
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Identifiers

Local EPrints ID: 452927
URI: http://eprints.soton.ac.uk/id/eprint/452927
DOI: doi:10.1103/PhysRevD.104.103006
ISSN: 2470-0010
PURE UUID: 6a340c2c-f641-4fbd-a350-7a2e3eec82f1
ORCID for P. Hammond: ORCID iD orcid.org/0000-0002-9447-1043
ORCID for I. Hawke: ORCID iD orcid.org/0000-0003-4805-0309
ORCID for N. Andersson: ORCID iD orcid.org/0000-0001-8550-3843

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Date deposited: 06 Jan 2022 17:50
Last modified: 17 Mar 2024 03:02

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Contributors

Author: P. Hammond ORCID iD
Author: I. Hawke ORCID iD
Author: N. Andersson ORCID iD

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