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Galactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relation

Bosonic ultralight dark matter (ULDM) would form cored density distributions at the center of galaxies. These cores, seen in numerical simulations, admit analytic description as the lowest energy bound state solution (“soliton”) of the Schroedinger-Poisson equations. Numerical simulations of ULDM ga...

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Detalles Bibliográficos
Autores principales: Bar, Nitsan, Blas, Diego, Blum, Kfir, Sibiryakov, Sergey
Lenguaje:eng
Publicado: 2018
Materias:
Acceso en línea:https://dx.doi.org/10.1103/PhysRevD.98.083027
http://cds.cern.ch/record/2318544
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author Bar, Nitsan
Blas, Diego
Blum, Kfir
Sibiryakov, Sergey
author_facet Bar, Nitsan
Blas, Diego
Blum, Kfir
Sibiryakov, Sergey
author_sort Bar, Nitsan
collection CERN
description Bosonic ultralight dark matter (ULDM) would form cored density distributions at the center of galaxies. These cores, seen in numerical simulations, admit analytic description as the lowest energy bound state solution (“soliton”) of the Schroedinger-Poisson equations. Numerical simulations of ULDM galactic halos find empirical scaling relations between the mass of the large-scale host halo and the mass of the central soliton. We discuss how the simulation results of different groups can be understood in terms of the basic properties of the soliton. Importantly, simulations imply that the energy per unit mass in the soliton and in the virialized host halo should be approximately equal. This relation lends itself to observational tests because it predicts that the peak circular velocity, measured for the host halo in the outskirts of the galaxy, should approximately repeat itself in the central region. Contrasting this prediction with the measured rotation curves of well-resolved nearby galaxies, we show that ULDM in the mass range m∼(10-22÷10-21)  eV, which has been invoked as a possible solution to the small-scale puzzles of ΛCDM, is in tension with the data. We suggest that a dedicated analysis of the Milky Way inner gravitational potential could probe ULDM up to m≲10-19  eV.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2018
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spelling cern-23185442023-01-26T07:40:34Zdoi:10.1103/PhysRevD.98.083027http://cds.cern.ch/record/2318544engBar, NitsanBlas, DiegoBlum, KfirSibiryakov, SergeyGalactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relationhep-phParticle Physics - Phenomenologyastro-ph.GAAstrophysics and Astronomyastro-ph.COAstrophysics and AstronomyBosonic ultralight dark matter (ULDM) would form cored density distributions at the center of galaxies. These cores, seen in numerical simulations, admit analytic description as the lowest energy bound state solution (“soliton”) of the Schroedinger-Poisson equations. Numerical simulations of ULDM galactic halos find empirical scaling relations between the mass of the large-scale host halo and the mass of the central soliton. We discuss how the simulation results of different groups can be understood in terms of the basic properties of the soliton. Importantly, simulations imply that the energy per unit mass in the soliton and in the virialized host halo should be approximately equal. This relation lends itself to observational tests because it predicts that the peak circular velocity, measured for the host halo in the outskirts of the galaxy, should approximately repeat itself in the central region. Contrasting this prediction with the measured rotation curves of well-resolved nearby galaxies, we show that ULDM in the mass range m∼(10-22÷10-21)  eV, which has been invoked as a possible solution to the small-scale puzzles of ΛCDM, is in tension with the data. We suggest that a dedicated analysis of the Milky Way inner gravitational potential could probe ULDM up to m≲10-19  eV.Bosonic ultra-light dark matter (ULDM) would form cored density distributions at the center of galaxies. These cores, seen in numerical simulations, admit analytic description as the lowest energy bound state solution ("soliton") of the Schroedinger-Poisson equations. Numerical simulations of ULDM galactic halos found empirical scaling relations between the mass of the large-scale host halo and the mass of the central soliton. We discuss how the simulation results of different groups can be understood in terms of the basic properties of the soliton. Importantly, simulations imply that the energy per unit mass in the soliton and in the virialised host halo should be approximately equal. This relation lends itself to observational tests, because it predicts that the peak circular velocity, measured for the host halo in the outskirts of the galaxy, should approximately repeat itself in the central region. Contrasting this prediction to the measured rotation curves of well-resolved near-by galaxies, we show that ULDM in the mass range $m\sim (10^{-22}\div 10^{-21})$ eV, which has been invoked as a possible solution to the small-scale puzzles of $\Lambda$CDM, is in tension with the data. We suggest that a dedicated analysis of the Milky Way inner gravitational potential could probe ULDM up to $m\lesssim 10^{-19}$ eV.arXiv:1805.00122CERN-TH-2018-102INR-TH-2018-008KCL-PH-TH/2018-16oai:cds.cern.ch:23185442018-04-30
spellingShingle hep-ph
Particle Physics - Phenomenology
astro-ph.GA
Astrophysics and Astronomy
astro-ph.CO
Astrophysics and Astronomy
Bar, Nitsan
Blas, Diego
Blum, Kfir
Sibiryakov, Sergey
Galactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relation
title Galactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relation
title_full Galactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relation
title_fullStr Galactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relation
title_full_unstemmed Galactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relation
title_short Galactic rotation curves versus ultralight dark matter: Implications of the soliton-host halo relation
title_sort galactic rotation curves versus ultralight dark matter: implications of the soliton-host halo relation
topic hep-ph
Particle Physics - Phenomenology
astro-ph.GA
Astrophysics and Astronomy
astro-ph.CO
Astrophysics and Astronomy
url https://dx.doi.org/10.1103/PhysRevD.98.083027
http://cds.cern.ch/record/2318544
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AT sibiryakovsergey galacticrotationcurvesversusultralightdarkmatterimplicationsofthesolitonhosthalorelation