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Black Holes and Gravitational Waves from Slow First-Order Phase Transitions

Marek Lewicki, Piotr Toczek, Ville Vaskonen

2024Physical Review Letters38 citationsDOI

Abstract

Slow first-order phase transitions generate large inhomogeneities that can lead to the formation of primordial black holes. We show that the gravitational wave spectrum then consists of a primary component sourced by bubble collisions and a secondary one induced by large perturbations. The latter gives the dominant peak if β/H_{0}<12, impacting, in particular, the interpretation of the recent pulsar timing array data. The gravitational wave signal associated with a particular primordial black hole population is stronger than in typical scenarios because of a negative non-Gaussianity of the perturbations, and it has a distinguishable shape with two peaks.

Topics & Concepts

Gravitational wavePhysicsOrder (exchange)Phase transitionQuantum electrodynamicsClassical mechanicsQuantum mechanicsFinanceEconomicsBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesPulsars and Gravitational Waves Research
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