Micro-Bose/Proca dark matter stars from black hole superradiance
Abstract
We study the production of heavy, μ 1 TeV, bosonic spin s=0,1 dark matter (DM) via the simultaneous processes of Hawking evaporation and superradiance (SR) from an initial population of small, 106 kg, primordial black holes (PBHs). Even for small initial PBH spins the SR process can produce extremely dense gravitationally-bound DM Bose or Proca soliton "stars" of radius pm and mass 10 few kg that can survive to today, well after PBH decay. These solitons can constitute a significant fraction of the DM density, rising to 50\% in the vector DM case.
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