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· 2025 · arXiv 2504.20825

4 Pith papers cite this work. Polarity classification is still indexing.

4 Pith papers citing it

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Strongly Interacting Dark Matter admixed Neutron Stars

hep-ph · 2025-03-25 · unverdicted · novelty 7.0

Strongly interacting dark matter described by a first-principles G2 gauge-theory equation of state can be mixed into neutron stars while remaining compatible with current observational constraints.

Distinguishing Neutron Star vs. Low-Mass Black Hole Binaries with Late Inspiral & Postmerger Gravitational Waves $-$ Sensitivity to Transmuted Black Holes and Non-Annihilating Dark Matter

hep-ph · 2025-07-21 · unverdicted · novelty 6.0

Future high-frequency-sensitive GW detectors can distinguish binary neutron star from low-mass black hole mergers in late phases, enabling separation of merger rates and constraints on heavy non-annihilating dark matter via transmuted black holes.

Dark Matter Heating in Evolving Proto-Neutron Stars: A Two-Fluid Approach

astro-ph.HE · 2025-11-10 · unverdicted · novelty 5.0

Dark matter cores heat baryonic matter in evolving proto-neutron stars by deepening the gravitational potential while halos cool it, providing a diagnostic distinct from hyperons.

Bulk viscosity from neutron decays to dark baryons in neutron star matter

astro-ph.HE · 2025-09-30 · conditional · novelty 5.0

Neutron dark decays modify the equation of state and either mildly suppress or strongly enhance bulk viscosity in neutron star merger conditions, depending on the in-medium decay rate.

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Showing 4 of 4 citing papers.

Strongly Interacting Dark Matter admixed Neutron Stars hep-ph · 2025-03-25 · unverdicted · none · ref 19
Strongly interacting dark matter described by a first-principles G2 gauge-theory equation of state can be mixed into neutron stars while remaining compatible with current observational constraints.
Distinguishing Neutron Star vs. Low-Mass Black Hole Binaries with Late Inspiral & Postmerger Gravitational Waves $-$ Sensitivity to Transmuted Black Holes and Non-Annihilating Dark Matter hep-ph · 2025-07-21 · unverdicted · none · ref 36
Future high-frequency-sensitive GW detectors can distinguish binary neutron star from low-mass black hole mergers in late phases, enabling separation of merger rates and constraints on heavy non-annihilating dark matter via transmuted black holes.
Dark Matter Heating in Evolving Proto-Neutron Stars: A Two-Fluid Approach astro-ph.HE · 2025-11-10 · unverdicted · none · ref 33
Dark matter cores heat baryonic matter in evolving proto-neutron stars by deepening the gravitational potential while halos cool it, providing a diagnostic distinct from hyperons.
Bulk viscosity from neutron decays to dark baryons in neutron star matter astro-ph.HE · 2025-09-30 · conditional · none · ref 41
Neutron dark decays modify the equation of state and either mildly suppress or strongly enhance bulk viscosity in neutron star merger conditions, depending on the in-medium decay rate.

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