Higgs and super-Higgs effects with naturally vanishing vacuum energy

We construct N=1 supergravity models where the gauge symmetry and supersymmetry are both spontaneously broken, with naturally vanishing classical vacuum energy and unsuppressed Goldstino components along gauge non-singlet directions. We discuss some physically interesting situations where such a mec...

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Detalles Bibliográficos
Autores principales: Brignole, Andrea, Feruglio, Ferruccio, Zwirner, Fabio
Lenguaje:eng
Publicado: 1995
Materias:
Particle Physics - Theory
Acceso en línea:https://dx.doi.org/10.1016/0370-2693(95)00882-L
http://cds.cern.ch/record/279866
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author Brignole, Andrea
Feruglio, Ferruccio
Zwirner, Fabio
author_facet Brignole, Andrea
Feruglio, Ferruccio
Zwirner, Fabio
author_sort Brignole, Andrea
collection CERN
description We construct N=1 supergravity models where the gauge symmetry and supersymmetry are both spontaneously broken, with naturally vanishing classical vacuum energy and unsuppressed Goldstino components along gauge non-singlet directions. We discuss some physically interesting situations where such a mechanism could play a role, and identify the breaking of a grand-unified gauge group as the most likely possibility. We show that, even when the gravitino mass is much smaller than the scale m_X of gauge symmetry breaking, important features can be missed if we first naively integrate out the degrees of freedom of mass {\cal O} (m_X), in the limit of unbroken supersymmetry, and then describe the super-Higgs effect in the resulting effective theory. We also comment on possible connections with extended supergravities and realistic four-dimensional string constructions.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1995
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spelling cern-2798662023-03-14T19:28:19Zdoi:10.1016/0370-2693(95)00882-Lhttp://cds.cern.ch/record/279866engBrignole, AndreaFeruglio, FerruccioZwirner, FabioHiggs and super-Higgs effects with naturally vanishing vacuum energyParticle Physics - TheoryWe construct N=1 supergravity models where the gauge symmetry and supersymmetry are both spontaneously broken, with naturally vanishing classical vacuum energy and unsuppressed Goldstino components along gauge non-singlet directions. We discuss some physically interesting situations where such a mechanism could play a role, and identify the breaking of a grand-unified gauge group as the most likely possibility. We show that, even when the gravitino mass is much smaller than the scale m_X of gauge symmetry breaking, important features can be missed if we first naively integrate out the degrees of freedom of mass {\cal O} (m_X), in the limit of unbroken supersymmetry, and then describe the super-Higgs effect in the resulting effective theory. We also comment on possible connections with extended supergravities and realistic four-dimensional string constructions.We construct $N=1$ supergravity models where the gauge symmetry and supersymmetry are both spontaneously broken, with naturally vanishing classical vacuum energy and unsuppressed Goldstino components along gauge non-singlet directions. We discuss some physically interesting situations where such a mechanism could play a role, and identify the breaking of a grand-unified gauge group as the most likely possibility. We show that, even when the gravitino mass is much smaller than the scale $m_X$ of gauge symmetry breaking, important features can be missed if we first naively integrate out the degrees of freedom of mass ${\cal O} (m_X)$, in the limit of unbroken supersymmetry, and then describe the super-Higgs effect in the resulting effective theory. We also comment on possible connections with extended supergravities and realistic four-dimensional string constructions.We construct N = 1 supergravity models where the gauge symmetry and supersymmetry are both spontaneously broken, with naturally vanishing classical vacuum energy and unsuppressed Goldstino components along gauge non-singlet directions. We discuss some physically interesting situations where such a mechanism could play a role, and identify the breaking of a grand-unified gauge group as the most likely possibility. We show that, even when the gravitino mass is much smaller than the scale m x of gauge symmetry breaking, important features can be missed if we first naively integrate out the degrees of freedom of mass O ( m x ), in the limit of unbroken supersymmetry, and then describe the super-Higgs effect in the resulting effective theory. We also comment on possible connections with extended supergravities and realistic four-dimensional string constructions.hep-th/9504032CERN-TH-95-76CERN-TH-95-076DFPD-95-TH-18LBL-37021CERN-TH-95-76DFPD-95-TH-18LBL-37021oai:cds.cern.ch:2798661995-04-06
spellingShingle Particle Physics - Theory
Brignole, Andrea
Feruglio, Ferruccio
Zwirner, Fabio
Higgs and super-Higgs effects with naturally vanishing vacuum energy
title Higgs and super-Higgs effects with naturally vanishing vacuum energy
title_full Higgs and super-Higgs effects with naturally vanishing vacuum energy
title_fullStr Higgs and super-Higgs effects with naturally vanishing vacuum energy
title_full_unstemmed Higgs and super-Higgs effects with naturally vanishing vacuum energy
title_short Higgs and super-Higgs effects with naturally vanishing vacuum energy
title_sort higgs and super-higgs effects with naturally vanishing vacuum energy
topic Particle Physics - Theory
url https://dx.doi.org/10.1016/0370-2693(95)00882-L
http://cds.cern.ch/record/279866
work_keys_str_mv AT brignoleandrea higgsandsuperhiggseffectswithnaturallyvanishingvacuumenergy
AT feruglioferruccio higgsandsuperhiggseffectswithnaturallyvanishingvacuumenergy
AT zwirnerfabio higgsandsuperhiggseffectswithnaturallyvanishingvacuumenergy

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