Brane to bulk supersymmetry breaking and radion force at micron distances

We study mediation of supersymmetry breaking in the bulk, in models with primordial supersymmetry breaking on D-branes at the string scale, in the TeV region. We compute the gravitino and scalar masses up to one-loop level, as well as the radion coupling to matter. We find that the latter mediates a...

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Detalles Bibliográficos
Autores principales: Antoniadis, I., Benakli, K., Laugier, A., Maillard, T.
Lenguaje:eng
Publicado: 2002
Materias:
Particle Physics - Phenomenology
Acceso en línea:https://dx.doi.org/10.1016/S0550-3213(03)00255-4
http://cds.cern.ch/record/593674
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author Antoniadis, I.
Benakli, K.
Laugier, A.
Maillard, T.
author_facet Antoniadis, I.
Benakli, K.
Laugier, A.
Maillard, T.
author_sort Antoniadis, I.
collection CERN
description We study mediation of supersymmetry breaking in the bulk, in models with primordial supersymmetry breaking on D-branes at the string scale, in the TeV region. We compute the gravitino and scalar masses up to one-loop level, as well as the radion coupling to matter. We find that the latter mediates a model independent force at submillimeter distances that can be tested in micro-gravity experiments for any dimensionality of the bulk. In the case of two large dimensions, our type I string framework provides an example which allows to stabilize the radion potential and determine the desired hierarchy between the string and Planck scales.
id cern-593674
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2002
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spelling cern-5936742023-10-04T05:57:54Zdoi:10.1016/S0550-3213(03)00255-4http://cds.cern.ch/record/593674engAntoniadis, I.Benakli, K.Laugier, A.Maillard, T.Brane to bulk supersymmetry breaking and radion force at micron distancesParticle Physics - PhenomenologyWe study mediation of supersymmetry breaking in the bulk, in models with primordial supersymmetry breaking on D-branes at the string scale, in the TeV region. We compute the gravitino and scalar masses up to one-loop level, as well as the radion coupling to matter. We find that the latter mediates a model independent force at submillimeter distances that can be tested in micro-gravity experiments for any dimensionality of the bulk. In the case of two large dimensions, our type I string framework provides an example which allows to stabilize the radion potential and determine the desired hierarchy between the string and Planck scales.We study mediation of supersymmetry breaking in the bulk, in models with primordial supersymmetry breaking on D-branes at the string scale, in the TeV region. We compute the gravitino and scalar masses up to one-loop level, as well as the radion coupling to matter. We find that the latter mediates a model independent force at submillimeter distances that can be tested in micro-gravity experiments for any dimensionality of the bulk. In the case of two large dimensions, our type I string framework provides an example which allows to stabilize the radion potential and determine the desired hierarchy between the string and Planck scales.We study mediation of supersymmetry breaking in the bulk, in models with primordial supersymmetry breaking on D-branes at the string scale, in the TeV region. We compute the gravitino and scalar masses up to one-loop level, as well as the radion coupling to matter. We find that the latter mediates a model independent force at submillimeter distances that can be tested in micro-gravity experiments for any dimensionality of the bulk. In the case of two large dimensions, our type I string framework provides an example which allows to stabilize the radion potential and determine the desired hierarchy between the string and Planck scales.We study mediation of supersymmetry breaking in the bulk, in models with primordial supersymmetry breaking on D-branes at the string scale, in the TeV region. We compute the gravitino and scalar masses up to one-loop level, as well as the radion coupling to matter. We find that the latter mediates a model independent force at submillimeter distances that can be tested in micro-gravity experiments for any dimensionality of the bulk. In the case of two large dimensions, our type I string framework provides an example which allows to stabilize the radion potential and determine the desired hierarchy between the string and Planck scales.hep-ph/0211409CERN-TH-2002-341NEIP-02-010CPTH-RR-083-1102CERN-TH-2002-341oai:cds.cern.ch:5936742002-11-26
spellingShingle Particle Physics - Phenomenology
Antoniadis, I.
Benakli, K.
Laugier, A.
Maillard, T.
Brane to bulk supersymmetry breaking and radion force at micron distances
title Brane to bulk supersymmetry breaking and radion force at micron distances
title_full Brane to bulk supersymmetry breaking and radion force at micron distances
title_fullStr Brane to bulk supersymmetry breaking and radion force at micron distances
title_full_unstemmed Brane to bulk supersymmetry breaking and radion force at micron distances
title_short Brane to bulk supersymmetry breaking and radion force at micron distances
title_sort brane to bulk supersymmetry breaking and radion force at micron distances
topic Particle Physics - Phenomenology
url https://dx.doi.org/10.1016/S0550-3213(03)00255-4
http://cds.cern.ch/record/593674
work_keys_str_mv AT antoniadisi branetobulksupersymmetrybreakingandradionforceatmicrondistances
AT benaklik branetobulksupersymmetrybreakingandradionforceatmicrondistances
AT laugiera branetobulksupersymmetrybreakingandradionforceatmicrondistances
AT maillardt branetobulksupersymmetrybreakingandradionforceatmicrondistances

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