Litcius/Paper detail

Primordial black holes from strong first-order phase transitions

Marek Lewicki, Piotr Toczek, Ville Vaskonen

2023Journal of High Energy Physics97 citationsDOIOpen Access PDF

Abstract

A bstract We study the formation of primordial black holes (PBHs) in strongly super-cooled first-order phase transitions. The mechanism is based on the presence of remnants dominated by the false vacuum that scale slower with the expansion of the Universe than their surroundings where this energy was already converted into radiation. We compute the PBH formation from these remnants including the contribution from the false vacuum and the bubble walls, by estimating the collapse using the hoop conjecture and by considering both regions collapsing immediately when entering the horizon and sub-horizon regions that collapse as their compactness grows. We show that for exponential bubble nucleation rate, Γ ∝ e βt , the primordial black hole formation implies β/H ≳ 3 . 8, where H denotes the Hubble rate, if the potential energy of the false vacuum is ∆ V ≲ (10 12 GeV) 4 , as otherwise a too large abundance of long-lived PBHs forms. The observed dark matter abundance can be formed in asteroid mass PBHs if β/H ≃ 3 . 8 and 10 5 GeV ≲ ∆ V 1 / 4 ≲ 10 8 GeV. Finally, we consider also the effect of the second order correction to the exponential nucleation rate showing that the PBH abundance is mainly determined by the average radius of the true vacuum bubbles.

Topics & Concepts

PhysicsPrimordial black holeFalse vacuumHorizonNucleationEvent horizonRADIUSAstrophysicsBlack hole (networking)Dark energyOrder (exchange)Apparent horizonDark matterUniverseParticle physicsAstronomyCosmologyThermodynamicsGravitational waveBinary black holeComputer scienceComputer securityRouting (electronic design automation)Link-state routing protocolFinanceRouting protocolEconomicsComputer networkCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsGalaxies: Formation, Evolution, Phenomena