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On self-gravitating strange dark matter halos around galaxies
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On self-gravitating strange dark matter halos around galaxies
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A new family of nonrelativistic, Newtonian, non-quantum equilibrium configurations describing galactic halos is introduced, by considering strange quark matter conglomerates with masses larger than about 8 GeV as new possible components of the dark matter. Originally introduced to explain the state of matter in neutron stars, such conglomerates may also form in the high-density and temperature conditions of the primordial Universe and then decouple from ordinary baryonic matter, providing the fundamental components of dark matter for the formation of pristine gravitational potential wells and the subsequent evolution of cosmic structures. The obtained results for halo mass and radius are consistent with the rotational velocity curve observed in the Galaxy. Additionally, the average density of such dark matter halos is similar to that derived for halos of dwarf spheroidal galaxies, which can therefore be interpreted as downscaled versions of larger dark matter distributions around Milky Way-sized galaxies and hint for a common origin of the two families of cosmic structures.
Forward citations
Cited by 2 Pith papers
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First Kaonic Boron Isotopes Measurements with SIDDHARTA-2 at DA$\Phi$NE
First measurement of 5g→4f and 4f→3d X-ray transitions in kaonic 10B and 11B yields energies and yields consistent with QED for the 4f→3d line in 11B, with upper limits on strong-interaction shifts and widths.
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First Kaonic Boron Isotopes Measurements with SIDDHARTA-2 at DA$\Phi$NE
First precision X-ray measurements in kaonic 10B and 11B are consistent with QED and provide upper limits on strong-interaction shifts in the 3d level.
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