Oscillation effects on neutrino decoupling in the early universe
- 9 April 2002
- journal article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 65 (8)
- https://doi.org/10.1103/physrevd.65.083006
Abstract
In the early universe, neutrinos decouple from equilibrium with the electromagnetic plasma at a temperature which is only slightly higher than the temperature where electrons and positrons annihilate. Therefore neutrinos to some extent share in the entropy transfer from e^+e^- to other species, and their final temperature is slightly higher than the canonical value T_nu = (4/11)^{1/3} T_gamma. We study neutrino decoupling in the early universe with effects of neutrino oscillations included, and find that the change in neutrino energy density from e^+ e^- annihilations can be about 2-3% higher if oscillation are included. The primordial helium abundance can be changed by as much as 1.5 x 10^-4 by neutrino oscillations.Keywords
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This publication has 33 references indexed in Scilit:
- Non-equilibrium corrections to the spectra of massless neutrinos in the early universeNuclear Physics B, 1999
- Cosmological Neutrino Background RevisitedThe Astrophysical Journal, 1998
- Non-equilibrium corrections to the spectra of massless neutrinos in the early universeNuclear Physics B, 1997
- Neutrino decoupling in the early UniversePhysical Review D, 1995
- Effect of neutrino heating on primordial nucleosynthesisPhysical Review D, 1993
- Nonequilibrium effect of the neutrino distribution on primordial helium synthesisPhysical Review D, 1992
- Nonequilibrium neutrino statistical mechanics in the expanding UniversePhysical Review D, 1992
- Effect of neutrino heating in the early Universe on neutrino decoupling temperatures and nucleosynthesisPhysical Review D, 1991
- Relaxation time of neutrinos in the early universeThe Astrophysical Journal, 1989
- Primordial nucleosynthesis including radiative, Coulomb, and finite-temperature corrections to weak ratesPhysical Review D, 1982