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Showing 11 of 11 citing papers.

• Cosmic Collider Gravitational Waves sourced by Right-handed Neutrino production from Bubbles: Testing Seesaw, Leptogenesis and Dark Matter astro-ph.CO · 2026-01-05 · unverdicted · none · ref 269

  Bubble collisions in a seesaw model produce right-handed neutrinos that source novel gravitational waves detectable by LISA, ET, and LVK while allowing the lightest RHN to explain dark matter or enable leptogenesis.

• New Sensitivity Curves for Gravitational-Wave Signals from Cosmological Phase Transitions hep-ph · 2020-02-11 · unverdicted · none · ref 160

  Defines peak-integrated sensitivity curves (PISCs) that fold in the expected spectral shape of gravitational waves from cosmological phase transitions and supplies semianalytical fits plus public data for major detectors.

• Primordial Black Hole from Tensor-induced Density Fluctuation: First-order Phase Transitions and Domain Walls astro-ph.CO · 2026-05-14 · unverdicted · none · ref 117

  Tensor perturbations from first-order phase transitions and domain wall annihilation induce curvature fluctuations at second order that form primordial black holes, allowing asteroid-mass PBHs to comprise all dark matter for specific parameter ranges with associated gravitational wave peaks in LISA,

• Neutron Portal and Dark Matter-Baryon Coincidence: from UV Completion to Phenomenology hep-ph · 2026-04-23 · unverdicted · none · ref 29

  A UV-complete neutron portal model dynamically solves the dark matter-baryon coincidence via a supercooled dark confinement transition that generates GeV-scale asymmetric DM and links to observed gravitational waves.

• Irreducible Gravitational Wave Background as a Particle Detector hep-ph · 2026-04-22 · unverdicted · none · ref 133

  Spectral features imprinted by long-lived BSM particles on any primordial GWB directly determine the particles' mass and decay rate once the model and initial abundance are specified.

• Reviving primordial black hole formation in slow first-order phase transitions hep-ph · 2026-05-11 · unverdicted · none · ref 70 · 2 links

  Slow reheating after a supercooled first-order phase transition allows an early matter-dominated era in which small curvature perturbations grow sufficiently to form primordial black holes.

• Primordial Magnetogenesis and Gravitational Waves from ALP-assisted Phase Transition hep-ph · 2026-04-22 · unverdicted · none · ref 81

  ALP-assisted first-order phase transitions can explain observed intergalactic magnetic fields and produce detectable gravitational waves, linking cosmology with particle physics searches.

• Dark matter in classically conformal theories: WIMP and supercooling hep-ph · 2026-03-10 · unverdicted · none · ref 46

  Classically conformal SU(2)_X model with triplet dark scalar yields viable WIMP and supercooled DM parameter spaces whose production histories are set by the model's first-order phase transition, with gravitational waves as a common probe.

• Thermodynamical uncertainties for primordial black holes from cosmological phase transitions hep-ph · 2025-06-18 · unverdicted · none · ref 46

  A state-of-the-art thermodynamic analysis of supercooled phase transitions yields a universal lower bound β/H_* ≃ 5 and shows that viable PBH dark-matter parameter space in classically conformal gauge-Higgs theories is severely limited by percolation and QCD constraints.

• Primordial black holes and magnetic fields in conformal neutrino mass models hep-ph · 2025-05-12 · unverdicted · none · ref 40

  Conformal U(1)' seesaw models produce PBHs contributing to dark matter and helical magnetic fields at seesaw scales of 10^4-10^11 GeV, with observable GW, microlensing, and Hawking signals at LISA, Roman, and future gamma-ray telescopes.

• Probing radiative electroweak symmetry breaking with colliders and gravitational waves hep-ph · 2024-08-07 · unverdicted · none · ref 66

  Radiative electroweak symmetry breaking with a logarithmic potential yields analytical vacuum solutions, four thermal history patterns, and supercooled FOPT gravitational waves whose signals combined with collider data can probe conformal scales to 10^5-10^8 GeV.