Primordial black holes from slow phase transitions: a model-building perspective

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Showing 4 of 4 citing papers.

• Curvature Perturbations from First-Order Phase Transitions: Implications to Black Holes and Gravitational Waves hep-ph · 2025-03-03 · unverdicted · none · ref 25

  Covariant analysis of curvature perturbations from first-order phase transitions reveals gauge-dependent overestimation of primordial black holes and gravitational waves in prior non-covariant calculations, leading to strong suppression of both signals.

• Reviving primordial black hole formation in slow first-order phase transitions hep-ph · 2026-05-11 · unverdicted · none · ref 23 · 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.

• Thermodynamical uncertainties for primordial black holes from cosmological phase transitions hep-ph · 2025-06-18 · unverdicted · none · ref 74

  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.

• Probing radiative electroweak symmetry breaking with colliders and gravitational waves hep-ph · 2024-08-07 · unverdicted · none · ref 87

  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.