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Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale Leptogenesis

If the expectation value of the right-handed (rhd) sneutrino comes to dominate the universe, its decay naturally leads to successful leptogenesis, as well as significant dilution of dangerous inflationary relics, such as the gravitino. The resulting baryon asymmetry is independent of other cosmologi...

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Detalles Bibliográficos
Autores principales: Hebecker, Arthur, March-Russell, J., Yanagida, T.
Lenguaje:eng
Publicado: 2002
Materias:
Acceso en línea:https://dx.doi.org/10.1016/S0370-2693(02)03070-8
http://cds.cern.ch/record/578121
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author Hebecker, Arthur
March-Russell, J.
Yanagida, T.
author_facet Hebecker, Arthur
March-Russell, J.
Yanagida, T.
author_sort Hebecker, Arthur
collection CERN
description If the expectation value of the right-handed (rhd) sneutrino comes to dominate the universe, its decay naturally leads to successful leptogenesis, as well as significant dilution of dangerous inflationary relics, such as the gravitino. The resulting baryon asymmetry is independent of other cosmological initial conditions. This attractive variant of leptogenesis requires at least one of the rhd neutrinos to have small Yukawa coupling and to have mass ~ 10^6 GeV, much smaller than the grand unified (GUT) scale. We show that these features naturally arise in the context of independently motivated and successful 5d orbifold GUTs with inverse-GUT-scale-sized extra dimensions. Rhd neutrinos are realized as bulk fields N_i with 5d bulk masses, while Yukawa couplings and lepton-number-violating masses for the N_i are localized at the SM boundary. The exponential suppression of the would-be N_i zero-modes leads to the desired small 4d Yukawa couplings and small masses for the rhd neutrino states. The see-saw prediction for the lhd neutrino mass scale is automatically maintained. We show that this realization of rhd neutrinos is nicely accommodated within an attractive orbifold-GUT flavour model, where all flavour hierarchies have a geometrical origin.
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language eng
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spelling cern-5781212023-03-14T18:42:44Zdoi:10.1016/S0370-2693(02)03070-8http://cds.cern.ch/record/578121engHebecker, ArthurMarch-Russell, J.Yanagida, T.Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale LeptogenesisParticle Physics - PhenomenologyIf the expectation value of the right-handed (rhd) sneutrino comes to dominate the universe, its decay naturally leads to successful leptogenesis, as well as significant dilution of dangerous inflationary relics, such as the gravitino. The resulting baryon asymmetry is independent of other cosmological initial conditions. This attractive variant of leptogenesis requires at least one of the rhd neutrinos to have small Yukawa coupling and to have mass ~ 10^6 GeV, much smaller than the grand unified (GUT) scale. We show that these features naturally arise in the context of independently motivated and successful 5d orbifold GUTs with inverse-GUT-scale-sized extra dimensions. Rhd neutrinos are realized as bulk fields N_i with 5d bulk masses, while Yukawa couplings and lepton-number-violating masses for the N_i are localized at the SM boundary. The exponential suppression of the would-be N_i zero-modes leads to the desired small 4d Yukawa couplings and small masses for the rhd neutrino states. The see-saw prediction for the lhd neutrino mass scale is automatically maintained. We show that this realization of rhd neutrinos is nicely accommodated within an attractive orbifold-GUT flavour model, where all flavour hierarchies have a geometrical origin.If the expectation value of the right-handed (rhd) sneutrino comes to dominate the universe, its decay naturally leads to successful leptogenesis, as well as significant dilution of dangerous inflationary relics, such as the gravitino. The resulting baryon asymmetry is independent of other cosmological initial conditions. This attractive variant of leptogenesis requires at least one of the rhd neutrinos to have small Yukawa coupling and to have mass ~ 10^6 GeV, much smaller than the grand unified (GUT) scale. We show that these features naturally arise in the context of independently motivated and successful 5d orbifold GUTs with inverse-GUT-scale-sized extra dimensions. Rhd neutrinos are realized as bulk fields N_i with 5d bulk masses, while Yukawa couplings and lepton-number-violating masses for the N_i are localized at the SM boundary. The exponential suppression of the would-be N_i zero-modes leads to the desired small 4d Yukawa couplings and small masses for the rhd neutrino states. The see-saw prediction for the lhd neutrino mass scale is automatically maintained. We show that this realization of rhd neutrinos is nicely accommodated within an attractive orbifold-GUT flavour model, where all flavour hierarchies have a geometrical origin.If the expectation value of the right-handed (rhd) sneutrino comes to dominate the universe, its decay naturally leads to successful leptogenesis, as well as significant dilution of dangerous inflationary relics, such as the gravitino. The resulting baryon asymmetry is independent of other cosmological initial conditions. This attractive variant of leptogenesis requires at least one of the rhd neutrinos to have small Yukawa coupling and to have mass ∼10 6  GeV, much smaller than the grand unified (GUT) scale. We show that these features naturally arise in the context of independently motivated and successful 5d orbifold GUTs with inverse-GUT-scale-sized extra dimensions. Rhd neutrinos are realized as bulk fields N i with 5d bulk masses, while Yukawa couplings and lepton-number-violating masses for the N i are localized at the SM boundary. The exponential suppression of the would-be N i zero-modes leads to the desired small 4d Yukawa couplings and small masses for the rhd neutrino states. The see-saw prediction for the lhd neutrino mass scale is automatically maintained. We show that this realization of rhd neutrinos is nicely accommodated within an attractive orbifold-GUT flavour model, where all flavour hierarchies have a geometrical origin.hep-ph/0208249CERN-TH-2002-201CERN-TH-2002-201oai:cds.cern.ch:5781212002-08-27
spellingShingle Particle Physics - Phenomenology
Hebecker, Arthur
March-Russell, J.
Yanagida, T.
Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale Leptogenesis
title Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale Leptogenesis
title_full Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale Leptogenesis
title_fullStr Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale Leptogenesis
title_full_unstemmed Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale Leptogenesis
title_short Higher-Dimensional Origin of Heavy Sneutrino Domination and Low-Scale Leptogenesis
title_sort higher-dimensional origin of heavy sneutrino domination and low-scale leptogenesis
topic Particle Physics - Phenomenology
url https://dx.doi.org/10.1016/S0370-2693(02)03070-8
http://cds.cern.ch/record/578121
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