Review Of Cold 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 of course, nonbaryonic. In the particle physics, many particles have been proposed to explain relic density of Dark Matter. These candidates can be classified according to whether they have decoupled from the thermal bath or were created in a nonthermal process. In the first class, thermal relics can be categorized into relativistic and nonrelativistic particles, at the moment of decoupling. The relics which were relativistic are called Hot Dark Matter, while those relics which were none relativistic constitute Cold Dark Matter. The goal of this thesis is investigation of cold dark matter...
Cataloging briefReview Of Cold 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 of course, nonbaryonic. In the particle physics, many particles have been proposed to explain relic density of Dark Matter. These candidates can be classified according to whether they have decoupled from the thermal bath or were created in a nonthermal process. In the first class, thermal relics can be categorized into relativistic and nonrelativistic particles, at the moment of decoupling. The relics which were relativistic are called Hot Dark Matter, while those relics which were none relativistic constitute Cold Dark Matter. The goal of this thesis is investigation of cold dark matter...
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