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Effect of magnetic fields on Urca rates in neutron star mergers

Effect of magnetic fields on Urca rates in neutron star mergers
Effect of magnetic fields on Urca rates in neutron star mergers
Isospin-equilibrating weak processes, called "Urca" processes, are of fundamental importance in astrophysical environments like (proto-)neutron stars, neutron star mergers, and supernovae. In these environments, matter can reach high temperatures of tens of MeVs and be subject to large magnetic fields. We thus investigate Urca rates at different temperatures and field strengths by performing the full temperature and magnetic-field dependent rate integrals for different equations of state. We find that the magnetic fields play an important role at temperatures of a few MeV, especially close to or below the direct Urca threshold, which is softened by the magnetic field. At higher temperatures, the effect of the magnetic fields can be overshadowed by the thermal effects. We observe that the magnetic field more strongly influences the neutron decay rates than the electron capture rates, leading to a shift in the flavor equilibrium.
astro-ph.HE, hep-ph, nucl-th
0556-2813
Tambe, Pranjal
b0b2c501-05c1-4ee4-af10-d298158c4ea4
Chatterjee, Debarati
3e5440bf-b6de-40db-9bd5-b277f1112c2d
Alford, Mark
f41ec2dc-7572-4aff-b346-47f4e473d682
Haber, Alexander
af4c2876-25b9-4639-be69-4b0ee41ecc29
Tambe, Pranjal
b0b2c501-05c1-4ee4-af10-d298158c4ea4
Chatterjee, Debarati
3e5440bf-b6de-40db-9bd5-b277f1112c2d
Alford, Mark
f41ec2dc-7572-4aff-b346-47f4e473d682
Haber, Alexander
af4c2876-25b9-4639-be69-4b0ee41ecc29

Tambe, Pranjal, Chatterjee, Debarati, Alford, Mark and Haber, Alexander (2025) Effect of magnetic fields on Urca rates in neutron star mergers. Physical Review C, 111 (3), [035809]. (doi:10.1103/PhysRevC.111.035809).

Record type: Article

Abstract

Isospin-equilibrating weak processes, called "Urca" processes, are of fundamental importance in astrophysical environments like (proto-)neutron stars, neutron star mergers, and supernovae. In these environments, matter can reach high temperatures of tens of MeVs and be subject to large magnetic fields. We thus investigate Urca rates at different temperatures and field strengths by performing the full temperature and magnetic-field dependent rate integrals for different equations of state. We find that the magnetic fields play an important role at temperatures of a few MeV, especially close to or below the direct Urca threshold, which is softened by the magnetic field. At higher temperatures, the effect of the magnetic fields can be overshadowed by the thermal effects. We observe that the magnetic field more strongly influences the neutron decay rates than the electron capture rates, leading to a shift in the flavor equilibrium.

Text
2409.09423v2 - Accepted Manuscript
Available under License University of Southampton Accepted Manuscript Licence.
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Accepted/In Press date: 10 March 2025
Published date: 28 March 2025
Keywords: astro-ph.HE, hep-ph, nucl-th

Identifiers

Local EPrints ID: 502473
URI: http://eprints.soton.ac.uk/id/eprint/502473
DOI: doi:10.1103/PhysRevC.111.035809
ISSN: 0556-2813
PURE UUID: 1c86d1cf-42cf-46b5-8a93-4398c226c139
ORCID for Alexander Haber: ORCID iD orcid.org/0000-0002-5511-9565

Catalogue record

Date deposited: 26 Jun 2025 17:13
Last modified: 04 Sep 2025 02:43

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Contributors

Author: Pranjal Tambe
Author: Debarati Chatterjee
Author: Mark Alford
Author: Alexander Haber ORCID iD

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