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Testing primordial black holes as dark matter in supergravity from gravitational waves

Yermek Aldabergenov, Andrea Addazi, Sergei V. Ketov

2021Physics Letters B26 citationsDOIOpen Access PDF

Abstract

We explore the Gravitational Waves (GW) phenomenology of a simple class of supergravity models that can explain and unify inflation and Primordial Black Holes (PBH) as Dark Matter (DM). Our (modified) supergravity models naturally lead to a two-field attractor-type double inflation, whose first stage is driven by Starobinsky scalaron and the second stage is driven by another scalar belonging to a supergravity multiplet. The PBHs formation in our supergravity models is efficient, compatible with all observational constraints, and predicts a stochastic GW background. We compute the PBH-induced GW power spectrum and show that GW signals can be detected within the sensitivity curves of the future space-based GW interferometers such as LISA, DECIGO, TAIJI and TianQin projects, thus showing predictive power of supergravity in GW physics and their compatibility.

Topics & Concepts

PhysicsSupergravityPrimordial black holeDark matterParticle physicsMultipletHigher-dimensional supergravityGravitational wavePhenomenology (philosophy)GravitinoTheoretical physicsAstrophysicsSupersymmetryAstronomySpectral linePhilosophyBinary black holeEpistemologyCosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchDark Matter and Cosmic Phenomena
Testing primordial black holes as dark matter in supergravity from gravitational waves | Litcius