R. Foot scite author profile

Pisano and Pleitez have introduced an interesting SU(3) C ⊗ SU(3) L ⊗ U(1) N gauge model which has the property that gauge anomaly cancellation requires the number of generations to be a multiple of 3. We consider generalizing that model to incorporate right-handed neutrinos. We find that there exists a non-trivial generalization of the Pisano-Pleitez model with right-handed neutrinos which is actually simpler than the original model in that symmetry breaking can be achieved with just three SU(3) L triplets (rather than 3 SU(3) L triplets and a sextet). We also consider a gauge model based on SU(3) C ⊗ SU(4) L ⊗ U(1) N symmetry. Both of these new models also have the feature that the anomalies cancel only when the number of generations is divisible by 3.

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A model with fundamental improper spacetime symmetries

Foot

1991

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Studies of neutrino asymmetries generated by ordinary-sterile neutrino oscillations in the early Universe and implications for big bang nucleosynthesis bounds

1997

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Ordinary-sterile neutrino oscillations can generate a significant lepton number asymmetry in the early Universe. We study this phenomenon in detail. We show that the dynamics of ordinary-sterile neutrino oscillations in the early Universe can be approximately described by a single integrodifferential equation which we derive from both the density matrix and Hamiltonian formalisms. This equation reduces to a relatively simple ordinary first-order differential equation if the system is sufficiently smooth ͑static limit͒. We study the conditions for which the static limit is an acceptable approximation. We also study the effect of the thermal distribution of neutrino momenta on the generation of lepton number. We apply these results to show that it is possible to evade ͑by many orders of magnitude͒ the big bang nucleosynthesis ͑BBN͒ bounds on the mixing parameters ␦m 2 and sin 2 2 0 describing ordinary-sterile neutrino oscillations. We show that the large angle or maximal vacuum oscillation solution to the solar neutrino problem does not significantly modify BBN for most of the parameter space of interest, provided that the and/or neutrinos have masses greater than about 1 eV. We also show that the large angle or maximal ordinary-sterile neutrino oscillation solution to the atmospheric neutrino anomaly does not significantly modify BBN for a range of parameters.

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Large neutrino asymmetries from neutrino oscillations

Foot

Thomson²,

Volkas³

1996

Phys. Rev. D

187

318

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We re-examine neutrino oscillations in the early universe. Contrary to previous studies, we show that large neutrino asymmetries can arise due to oscillations between ordinary neutrinos and sterile neutrinos. This means that the Big Bang Nucleosynthesis (BBN) bounds on the mass and mixing of ordinary neutrinos with sterile neutrinos can be evaded. Also, it is possible that the neutrino asymmetries can be large (i.e. > ∼ 10%), and hence have a significant effect on BBN through nuclear reaction rates.

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R. Foot

See-saw neutrino masses induced by a triplet of leptons

SU(3)L⊗U(1)Nand SU(4
Foot
¹
,
Long
²
,
Tran
³

1994
Phys. Rev. D

A model with fundamental improper spacetime symmetries

Studies of neutrino asymmetries generated by ordinary-sterile neutrino oscillations in the early Universe and implications for big bang nucleosynthesis bounds

Large neutrino asymmetries from neutrino oscillations

Contact Info

Product

Resources

About

R. Foot

See-saw neutrino masses induced by a triplet of leptons

SU(3)L⊗U(1)Nand SU(4Foot1, Long2, Tran3 1994Phys. Rev. D

A model with fundamental improper spacetime symmetries

Studies of neutrino asymmetries generated by ordinary-sterile neutrino oscillations in the early Universe and implications for big bang nucleosynthesis bounds

Large neutrino asymmetries from neutrino oscillations

Contact Info

Product

Resources

About

SU(3)L⊗U(1)Nand SU(4
Foot
¹
,
Long
²
,
Tran
³

1994
Phys. Rev. D