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Main Authors: Stanic, Lucijana, Eberlein, Mark, Linchakovskyy, Stanislav, Magnoli, Christopher, Mesiura, Maryna, Morf, Luca, Saha, Prasenjit, Vasiliev, Eugene
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.08805
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author Stanic, Lucijana
Eberlein, Mark
Linchakovskyy, Stanislav
Magnoli, Christopher
Mesiura, Maryna
Morf, Luca
Saha, Prasenjit
Vasiliev, Eugene
author_facet Stanic, Lucijana
Eberlein, Mark
Linchakovskyy, Stanislav
Magnoli, Christopher
Mesiura, Maryna
Morf, Luca
Saha, Prasenjit
Vasiliev, Eugene
contents We extend a recently developed dynamically self-consistent model of the Milky Way constrained by observations from the Gaia observatory to include a radially anisotropic component in the dark matter (DM) halo, which represents the debris from the accreted Gaia-Sausage-Enceladus (GSE) galaxy. In the new model, which we call a self-consistent Anisotropic Halo Model or scAHM, we derive distribution functions for DM velocity in heliocentric and geocentric reference frames. We compare them with the velocity distributions in the standard halo model (SHM) and another anisotropic model (SHM++). We compute predicted scattering rates in direct-detection experiments, for different target nuclei and DM particle masses. Seasonal dependencies of scattering rates are analyzed, revealing small but interesting variations in detection rates for different target nuclei and DM masses. Our findings show that the velocity distribution of the anisotropic GSE component significantly deviates from Gaussian, showing a modest impact on the detection rates. The peculiar kinematic signature of the radially anisotropic component would be most clearly observable by direction-sensitive detectors.
format Preprint
id arxiv_https___arxiv_org_abs_2502_08805
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dark Matter Particle Flux in a Dynamically Self-consistent Milky Way Model
Stanic, Lucijana
Eberlein, Mark
Linchakovskyy, Stanislav
Magnoli, Christopher
Mesiura, Maryna
Morf, Luca
Saha, Prasenjit
Vasiliev, Eugene
Astrophysics of Galaxies
Cosmology and Nongalactic Astrophysics
We extend a recently developed dynamically self-consistent model of the Milky Way constrained by observations from the Gaia observatory to include a radially anisotropic component in the dark matter (DM) halo, which represents the debris from the accreted Gaia-Sausage-Enceladus (GSE) galaxy. In the new model, which we call a self-consistent Anisotropic Halo Model or scAHM, we derive distribution functions for DM velocity in heliocentric and geocentric reference frames. We compare them with the velocity distributions in the standard halo model (SHM) and another anisotropic model (SHM++). We compute predicted scattering rates in direct-detection experiments, for different target nuclei and DM particle masses. Seasonal dependencies of scattering rates are analyzed, revealing small but interesting variations in detection rates for different target nuclei and DM masses. Our findings show that the velocity distribution of the anisotropic GSE component significantly deviates from Gaussian, showing a modest impact on the detection rates. The peculiar kinematic signature of the radially anisotropic component would be most clearly observable by direction-sensitive detectors.
title Dark Matter Particle Flux in a Dynamically Self-consistent Milky Way Model
topic Astrophysics of Galaxies
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2502.08805