Review of Hot Dark Matter Candidates, M.Sc. Thesis Sharif University of Technology ; Golshani, Mehdi (Supervisor)
Abstract
Nucleosynthesis and CMB data clearly indicate that most of the matter
in the universe is dark and non-baryonic. There’s no shortage of particle physics candidates for this dark matter. This candidates can be classified according to whether the dark matter particles originated via decoupling from thermal bath or were created in some non thermal process. Thermal relics can be categorized further as to whether they were relatvistic or nonrelativistic at the moment of decoupling. The relics which were relatvistic at this time constitute hot dark matter, while those which where nonrelativistic constitute cold dark matter. The goal of this thesis is reviewing hot dark matter... Cataloging briefReview of Hot Dark Matter Candidates, M.Sc. Thesis Sharif University of Technology ; Golshani, Mehdi (Supervisor)
Abstract
Nucleosynthesis and CMB data clearly indicate that most of the matter
in the universe is dark and non-baryonic. There’s no shortage of particle physics candidates for this dark matter. This candidates can be classified according to whether the dark matter particles originated via decoupling from thermal bath or were created in some non thermal process. Thermal relics can be categorized further as to whether they were relatvistic or nonrelativistic at the moment of decoupling. The relics which were relatvistic at this time constitute hot dark matter, while those which where nonrelativistic constitute cold dark matter. The goal of this thesis is reviewing hot dark matter... Find in contentBookmark |
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