A. D. Dolgov scite author profile

Cosmological implications of neutrinos are reviewed. The following subjects are discussed at a different level of scrutiny: cosmological limits on neutrino mass, neutrinos and primordial nucleosynthesis, cosmological constraints on unstable neutrinos, lepton asymmetry of the universe, impact of neutrinos on cosmic microwave radiation, neutrinos and the large scale structure of the universe, neutrino oscillations in the early universe, baryo/lepto-genesis and neutrinos, neutrinos and high energy cosmic rays, and briefly some more exotic subjects: neutrino balls, mirror neutrinos, and neutrinos from large extra dimensions. Content

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Asymmetric inflationary reheating and the nature of mirror universe

Berezhiani

1996

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The existence of a shadow world (or mirror universe) with matter and forces identical to that of the visible world but interacting with the latter only via gravity can be motivated by superstring theories as well as by recent attempts to understand the nature of a sterile neutrino needed if all known neutrino data are to be consistent with each other. A simple way to reconcile the constraints of big bang nucleosynthesis in such a theory is to postulate that the reheating temperature after inflation in the mirror universe is lower than that in the visible one. We have constructed explicit models that realize this proposal and have shown that the asymmetric reheating can be related to a difference of the electroweak symmetry breaking scales in the two sectors, which is needed for a solution of the neutrino puzzles in this picture. Cosmological implications of the mirror matter are also discussed.

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Non-equilibrium corrections to the spectra of massless neutrinos in the early universe

Dolgov¹,

Hansen²,

1997

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We repeat our previous calculation of the spectrum distortion of massless neutrinos in the early universe with a considerably better accuracy and corrected for a missing numerical factor in one of the two ways of calculations presented in our paper [1]. Now both ways of calculations are in perfect agreement and we essentially reproduce our old results presented in the abstract of the paper and used in the calculations of light element abundances. We disagree with the criticism of our calculations presented in ref.[2].

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Neutrino statistics and big bang nucleosynthesis

Dolgov¹,

Hansen²,

Smirnov³

2005

J. Cosmol. Astropart. Phys.

169

308

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Neutrinos may possibly violate the spin-statistics theorem, and hence obey Bose statistics or mixed statistics despite having spin half. We find the generalized equilibrium distribution function of neutrinos which depends on a single fermibose parameter, κ, and interpolates continuously between the bosonic and fermionic distributions when κ changes from -1 to +1. We consider modification of the Big Bang Nucleosynthesis (BBN) in the presence of bosonic or partly bosonic neutrinos. For pure bosonic neutrinos the abundances change (in comparison with the usual Fermi-Dirac case) by −3.2% for 4 He (which is equivalent to a decrease of the effective number of neutrinos by ∆N ν ≈ −0.6), +2.6% for 2 H and −7% for 7 Li. These changes provide a better fit to the BBN data. Future BBN studies will be able to constrain the fermi-bose parameter to κ > 0.5, if no deviation from fermionic nature of neutrinos is found. We also evaluate the sensitivity of future CMB and LSS observations to the fermi-bose parameter.

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Heavy sterile neutrinos: bounds from big-bang nucleosynthesis and SN 1987A

et al. 2000

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A. D. Dolgov

Neutrinos in cosmology

Asymmetric inflationary reheating and the nature of mirror universe

Non-equilibrium corrections to the spectra of massless neutrinos in the early universe

Neutrino statistics and big bang nucleosynthesis

Heavy sterile neutrinos: bounds from big-bang nucleosynthesis and SN 1987A

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