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Mixed citations

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Mixed citation behavior. Most common role is background (67%).

13 Pith papers citing it
Background 67% of classified citations

citation-role summary

background 4 method 2

citation-polarity summary

years

2026 8 2025 5

verdicts

UNVERDICTED 13

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representative citing papers

Kaon Portal to Freeze-in Dark Matter

hep-ph · 2026-05-07 · unverdicted · novelty 7.0

Freeze-in dark matter produced by kaons in low-reheating cosmologies requires larger couplings at lower reheating temperatures, directly linking the relic density to observable rates in rare kaon decay experiments.

Non-Thermal Production of Sexaquark Dark Matter

hep-ph · 2025-12-16 · unverdicted · novelty 6.0

Non-thermal production via late-decaying reheatons can achieve the observed dark matter density for sexaquarks by controlling branching fractions and coalescence probabilities, unlike thermal freeze-out which underproduces them by many orders of magnitude.

Nucleosynthesis and CMB bounds on photophilic ALPs: a fresh look

hep-ph · 2025-10-31 · unverdicted · novelty 5.0

Updated model-independent BBN and CMB bounds on photophilic ALPs that incorporate rare decays to light hadrons, show extended constraints for multiple reheating temperatures, and flag parameter space that may alleviate tensions in N_eff and deuterium abundance.

citing papers explorer

Showing 9 of 9 citing papers after filters.

  • Probing the small-scale primordial power spectrum via relic neutrinos and acoustic reheating hep-ph · 2026-05-12 · unverdicted · none · ref 122

    Dissipation of small-scale primordial perturbations after neutrino decoupling cools relic neutrinos and reduces their abundance, enabling PTOLEMY to constrain the primordial curvature power spectrum to O(0.1) on scales k ≲ 3×10^5 Mpc^{-1}.

  • Kaon Portal to Freeze-in Dark Matter hep-ph · 2026-05-07 · unverdicted · none · ref 30

    Freeze-in dark matter produced by kaons in low-reheating cosmologies requires larger couplings at lower reheating temperatures, directly linking the relic density to observable rates in rare kaon decay experiments.

  • Irreducible Constraints on Hadronically Interacting Sub-GeV Dark Matter hep-ph · 2025-12-23 · unverdicted · none · ref 41

    Sub-GeV dark matter that interacts hadronically is ruled out for nucleon scattering cross sections above 10^{-36} cm² across the keV to 100 MeV mass range by combined cosmological and particle-decay constraints.

  • Non-Thermal Production of Sexaquark Dark Matter hep-ph · 2025-12-16 · unverdicted · none · ref 24

    Non-thermal production via late-decaying reheatons can achieve the observed dark matter density for sexaquarks by controlling branching fractions and coalescence probabilities, unlike thermal freeze-out which underproduces them by many orders of magnitude.

  • Gravitational scalar production with a generic reheating scenario hep-ph · 2026-02-10 · unverdicted · none · ref 66

    Gravitational scalar production yields reheating-dependent constraints on dark matter scalars, with dilution preserving viability for k<4 low-temperature reheating and factorization in multi-stage cases.

  • Nucleosynthesis and CMB bounds on photophilic ALPs: a fresh look hep-ph · 2025-10-31 · unverdicted · none · ref 74

    Updated model-independent BBN and CMB bounds on photophilic ALPs that incorporate rare decays to light hadrons, show extended constraints for multiple reheating temperatures, and flag parameter space that may alleviate tensions in N_eff and deuterium abundance.

  • Thermal effects on Dark Matter production during cosmic reheating hep-ph · 2026-04-17 · unverdicted · none · ref 171

    Thermal corrections to reheating and freeze-in DM production rates are generally small in the computable regime but can be large in constructed counter-examples.

  • Baryogenesis and Dark Matter from non-thermally produced WIMPs hep-ph · 2026-04-13 · unverdicted · none · ref 27

    A non-thermally produced WIMP decays in an early matter-dominated universe to generate both baryon asymmetry and dark matter with collider-detectable masses.

  • Seasons of Dark Matter Freeze-In Shaped by the Weather of the Early Universe hep-ph · 2025-11-10 · unverdicted · none · ref 78

    Variations in pre-nucleosynthesis cosmology produce distinct seasons in the phase-space distribution of freeze-in dark matter, directly affecting its warmness and mass bounds.