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Heating neutron stars with inelastic dark matter and relativistic targets

Gerardo Alvarez, A. Joglekar, Mehrdad Phoroutan-Mehr, Hai-Bo Yu

2023Physical review. D/Physical review. D.22 citationsDOIOpen Access PDF

Abstract

The dense environment of neutron stars makes them an excellent target for probing dark matter interactions with the Standard Model. We study neutron star heating from capture of inelastic dark matter, which can evade direct detection constraints. We investigate kinematics of the inelastic scattering process between quasirelativistic dark matter particles and ultrarelativistic targets in neutron stars, and derive analytical expressions for the maximal mass gap allowed for the scattering to occur. We implement them into a fully relativistic formalism for calculating the capture rate and apply it to various scenarios of inelastic dark matter. The projected constraints from neutron stars can systematically surpass those from terrestrial searches, including direct detection and collider experiments. Neutron stars can also be sensitive to the parameter space of inelastic self-interacting dark matter. Our results indicate that extreme astrophysical environments, such as neutron stars, are an important target for searching dark matter.

Topics & Concepts

PhysicsDark matterNeutron starStarsAstrophysicsInelastic scatteringLight dark matterParameter spaceParticle physicsNuclear physicsScalar field dark matterScatteringCosmologyDark energyStatisticsOpticsMathematicsDark Matter and Cosmic PhenomenaCosmology and Gravitation TheoriesAtomic and Subatomic Physics Research
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