Black holes in ultralight dark matter solitons undergo quasi-periodic stone-skipping orbits driven by soliton dipole excitations, modifying inspiral dynamics when the black hole is much lighter than the soliton.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
astro-ph.CO 2verdicts
UNVERDICTED 2representative citing papers
Derives g_aγ ≲ 2×10^{-14} (10 kpc/R) GeV^{-1} constraints on ALP-photon coupling from absence of resonant photon growth in Galactic condensates using extragalactic background limits for 0.08 μeV to 8 eV masses.
citing papers explorer
-
Stone Skipping Black Holes in Ultralight Dark Matter Solitons
Black holes in ultralight dark matter solitons undergo quasi-periodic stone-skipping orbits driven by soliton dipole excitations, modifying inspiral dynamics when the black hole is much lighter than the soliton.
-
Axion Condensate Dark Matter Constraints from Resonant Enhancement of Background Radiation
Derives g_aγ ≲ 2×10^{-14} (10 kpc/R) GeV^{-1} constraints on ALP-photon coupling from absence of resonant photon growth in Galactic condensates using extragalactic background limits for 0.08 μeV to 8 eV masses.