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Primordial black holes as a dark matter candidate in theories with supersymmetry and inflation

Marcos M. Flores, Alexander Kusenko

2023Journal of Cosmology and Astroparticle Physics27 citationsDOIOpen Access PDF

Abstract

Abstract We show that supersymmetry and inflation, in a broad class of models, generically lead to formation of primordial black holes (PBHs) that can account for dark matter. Supersymmetry predicts a number of scalar fields that develop a coherent condensate along the flat directions of the potential at the end of inflation. The subsequent evolution of the condensate involves perturbative decay, as well as fragmentation into Q-balls, which can interact by some long-range forces mediated by the scalar fields. The attractive scalar long-range interactions between Q-balls facilitates the growth of Q-balls until their ultimate collapse to black holes. For a flat direction lifted by supersymmetry breaking at the scale Λ ∼ 100 TeV, the black hole masses are of the order of ( M 3 Planck /Λ 2 ) ∼ 10 22 g, in the allowed range for dark matter. Similar potentials with a lower scale Λ (not necessarily associated with supersymmetry) can result in a population of primordial black holes with larger masses, which can explain some recently reported microlensing events.

Topics & Concepts

PhysicsPrimordial black holeSupersymmetryParticle physicsDark matterInflation (cosmology)Supersymmetry breakingGravitinoScalar (mathematics)Theoretical physicsAstrophysicsSupergravityBinary black holeGravitational waveMathematicsGeometryCosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchBlack Holes and Theoretical Physics
Primordial black holes as a dark matter candidate in theories with supersymmetry and inflation | Litcius