Strong Constraints on Fuzzy Dark Matter from Ultrafaint Dwarf Galaxy Eridanus II
The fuzzy dark matter (FDM) model treats DM as a bosonic field with astrophysically large de Broglie wavelength. A striking feature of this model is \(\mathcal{O}(1)\) fluctuations in the dark matter density on time scales which are shorter than the gravitational timescale. Including for the first t...
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| description | The fuzzy dark matter (FDM) model treats DM as a bosonic field with astrophysically large de Broglie wavelength. A striking feature of this model is \(\mathcal{O}(1)\) fluctuations in the dark matter density on time scales which are shorter than the gravitational timescale. Including for the first time the effect of core oscillations, we demonstrate how such fluctuations lead to heating of star clusters, and thus an increase in their size over time. From the survival of the old star cluster in Eridanus II we infer \(m_a\gtrsim 0.6\rightarrow 1\times 10^{-19}\text{ eV}\) within modelling uncertainty if FDM is to compose all of the DM, and derive constraints on the FDM fraction at lower masses. The subhalo mass function in the Milky Way implies \(m_a\gtrsim 0.8\times 10^{-21}\text{ eV}\) to successfully form Eridanus II. The window between \(10^{-21}\text{ eV}\lesssim m_a\lesssim 10^{-20}\text{ eV}\) is affected by narrow band resonances, and the limited applicability of the diffusion approximation. Some of this window may be consistent with observations of Eridanus II and more detailed investigations are required. |
| doi_str_mv | 10.48550/arxiv.1810.08543 |
| format | Article |
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A striking feature of this model is \(\mathcal{O}(1)\) fluctuations in the dark matter density on time scales which are shorter than the gravitational timescale. Including for the first time the effect of core oscillations, we demonstrate how such fluctuations lead to heating of star clusters, and thus an increase in their size over time. From the survival of the old star cluster in Eridanus II we infer \(m_a\gtrsim 0.6\rightarrow 1\times 10^{-19}\text{ eV}\) within modelling uncertainty if FDM is to compose all of the DM, and derive constraints on the FDM fraction at lower masses. The subhalo mass function in the Milky Way implies \(m_a\gtrsim 0.8\times 10^{-21}\text{ eV}\) to successfully form Eridanus II. The window between \(10^{-21}\text{ eV}\lesssim m_a\lesssim 10^{-20}\text{ eV}\) is affected by narrow band resonances, and the limited applicability of the diffusion approximation. 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A striking feature of this model is \(\mathcal{O}(1)\) fluctuations in the dark matter density on time scales which are shorter than the gravitational timescale. Including for the first time the effect of core oscillations, we demonstrate how such fluctuations lead to heating of star clusters, and thus an increase in their size over time. From the survival of the old star cluster in Eridanus II we infer \(m_a\gtrsim 0.6\rightarrow 1\times 10^{-19}\text{ eV}\) within modelling uncertainty if FDM is to compose all of the DM, and derive constraints on the FDM fraction at lower masses. The subhalo mass function in the Milky Way implies \(m_a\gtrsim 0.8\times 10^{-21}\text{ eV}\) to successfully form Eridanus II. The window between \(10^{-21}\text{ eV}\lesssim m_a\lesssim 10^{-20}\text{ eV}\) is affected by narrow band resonances, and the limited applicability of the diffusion approximation. 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| subjects | Boson fields Dark matter De Broglie wavelengths Dwarf galaxies Milky Way Galaxy Physics - Astrophysics of Galaxies Physics - Cosmology and Nongalactic Astrophysics Physics - High Energy Physics - Phenomenology Star clusters Variations |
| title | Strong Constraints on Fuzzy Dark Matter from Ultrafaint Dwarf Galaxy Eridanus II |
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