Astroparticle physics offers very important, and sometimes unique, tools for studying extensions of the standard model in a way which is complementary to accelerator physics. In this paper we discuss the problem of dark matter in connection with its explanation in terms of relic supersymmetric particles, by analyzing different types of astrophysical signals which can be looked at in order to disentangle the presence of dark matter in the galactic halo.
Particle dark matter: searching for new physics without accelerators
FORNENGO, Nicolao
2005-01-01
Abstract
Astroparticle physics offers very important, and sometimes unique, tools for studying extensions of the standard model in a way which is complementary to accelerator physics. In this paper we discuss the problem of dark matter in connection with its explanation in terms of relic supersymmetric particles, by analyzing different types of astrophysical signals which can be looked at in order to disentangle the presence of dark matter in the galactic halo.
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