2019
DOI: 10.3847/1538-4357/aaf28c
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Relaxation in a Fuzzy Dark Matter Halo

Abstract: Dark matter may be composed of light bosons, m b ∼ 10 −22 eV, with a de Broglie wavelength λ ∼ 1 kpc in typical galactic potentials. Such "fuzzy" dark matter (FDM) behaves like cold dark matter (CDM) on much larger scales than the de Broglie wavelength, but may resolve some of the challenges faced by CDM in explaining the properties of galaxies on small scales ( 10 kpc). Because of its wave nature, FDM exhibits stochastic density fluctuations on the scale of the de Broglie wavelength that never damp. The gravi… Show more

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Cited by 131 publications
(162 citation statements)
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“…A similar lower bound on m is found from dynamical heating of stellar streams in the Milky Way [180]. Furthermore, [176] evaluated the competition of dynamical friction and gravitational heating on the inspiral of massive objects.…”
Section: Relaxation and Gravitational Heatingsupporting
confidence: 62%
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“…A similar lower bound on m is found from dynamical heating of stellar streams in the Milky Way [180]. Furthermore, [176] evaluated the competition of dynamical friction and gravitational heating on the inspiral of massive objects.…”
Section: Relaxation and Gravitational Heatingsupporting
confidence: 62%
“…Wave interference produces density power spectra with correlations near the de Broglie wavelength and white noise characteristics on large scales. The diffusion coefficients, effective mass, and distribution functions that follow from evaluating the force fluctuations coincide with those from [176] (Eq. (83)) in the diffusion limit.…”
Section: Relaxation and Gravitational Heatingmentioning
confidence: 73%
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