F. Hahn-Woernle scite author profile

We study the evolution of a cosmological baryon asymmetry produced via leptogenesis by means of the full classical Boltzmann equations, without the assumption of kinetic equilibrium and including all quantum statistical factors. Beginning with the full mode equations, we derive the usual equations of motion for the right-handed neutrino number density and integrated lepton asymmetry, and show explicitly the impact of each assumption on these quantities. For the first time, we investigate also the effects of scattering of the right-handed neutrino with the top quark to leading order in the Yukawa couplings by means of the full Boltzmann equations. We find that in our full Boltzmann treatment the final lepton asymmetry can be suppressed by as much as a factor of ∼ 1.5 in the weak wash-out regime (K 1), compared to the usual integrated approach which assumes kinetic equilibrium and neglects quantum statistics. This suppression is in contrast with the enhancement seen in some previous studies that considered only decay and inverse decay of the right-handed neutrino. However, this suppression quickly decreases as we increase K. In the strong wash-out regime (K 1), the full Boltzmann treatment and the integrated approach give nearly identical final lepton asymmetries (within 10% of each other at K > 3). Finally, we show that the opposing effects of quantum statistics on decays/inverse decays and the scattering processes tend to reduce the net importance of scattering on leptogenesis in the full treatment compared to the integrated approach. Basic set-upWe concentrate on the simplest case of "vanilla-leptogenesis", in which a lepton asymmetry is established from the decay and scattering of the lightest heavy right-handed neutrino N 1 . We neglect the decay of the two heavier neutrino states N 2,3 [22], assuming that any lepton asymmetry pro-

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Effects of reheating on leptogenesis

Hahn-Woernle

Plümacher

2009

Nuclear Physics B

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We study the evolution of a cosmological baryon asymmetry in leptogenesis when the right-handed neutrinos are produced in inflaton decays. By performing a detailed numerical study over a broad range of inflaton-neutrino couplings we show that the resulting asymmetry can be larger by two orders of magnitude or more than in thermal leptogenesis, if the reheating temperature T RH is of the same order as the right-handed neutrino mass M 1 . Hence, the lower limit on the baryogenesis temperature obtained in thermal leptogenesis can be relaxed accordingly.

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Wash-out inN₂-dominated leptogenesis

Hahn-Woernle

2010

J. Cosmol. Astropart. Phys.

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We study the wash-out of a cosmological baryon asymmetry produced via leptogenesis by subsequent interactions. Therefore we focus on a scenario in which a lepton asymmetry is established in the out-of-equilibrium decays of the next-to-lightest right-handed neutrino. We apply the full classical Boltzmann equations without the assumption of kinetic equilibrium and including all quantum statistical factors to calculate the wash-out of the lepton asymmetry by interactions of the lightest right-handed state. We include scattering processes with top quarks in our analysis. This is of particular interest since the wash-out is enhanced by scatterings and the use of mode equations with quantum statistical distribution functions. In this way we provide a restriction on the parameter space for this scenario.

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F. Hahn-Woernle

Full Boltzmann equations for leptogenesis including scattering

Effects of reheating on leptogenesis

Wash-out inN₂-dominated leptogenesis

Contact Info

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Resources

About

F. Hahn-Woernle

Full Boltzmann equations for leptogenesis including scattering

Effects of reheating on leptogenesis

Wash-out inN2-dominated leptogenesis

Contact Info

Product

Resources

About

Wash-out inN₂-dominated leptogenesis