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- Title
Dark matter as the Bose-Einstein condensation in loop quantum cosmology.
- Authors
Atazadeh, K.; Darabi, F.; Mousavi, M.
- Abstract
We consider the FLRW universe in a loop quantum cosmological model filled with radiation, baryonic matter (with negligible pressure), dark energy, and dark matter. The dark matter sector is supposed to be of Bose-Einstein condensate type. The Bose-Einstein condensation process in a cosmological context by supposing it as an approximate first-order phase transition, has already been studied in the literature. Here, we study the evolution of the physical quantities related to the early universe description such as the energy density, temperature, and scale factor of the universe, before, during, and after the condensation process. We also consider in detail the evolution era of the universe in a mixed normal-condensate dark matter phase. The behavior and time evolution of the condensate dark matter fraction is also analyzed.
- Subjects
DARK matter; BOSE-Einstein condensation; QUANTUM cosmology; COSMOLOGICAL constant; ENERGY density; PHASE transitions
- Publication
European Physical Journal C -- Particles & Fields, 2016, Vol 76, Issue 6, p1
- ISSN
1434-6044
- Publication type
Article
- DOI
10.1140/epjc/s10052-016-4182-x