On non-universal Goldstino couplings to matter

Using the constrained superfields formalism to describe the interactions of a light goldstino to matter fields in supersymmetric models, we identify generalised, higher-order holomorphic superfield constraints that project out the superpartners and capture the non-universal couplings of the goldstin...

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Detalles Bibliográficos
Autores principales: Dudas, E., von Gersdorff, G., Ghilencea, D.M., Lavignac, S., Parmentier, J.
Lenguaje:eng
Publicado: 2011
Materias:
Particle Physics - Theory
Acceso en línea:https://dx.doi.org/10.1016/j.nuclphysb.2011.10.011
http://cds.cern.ch/record/1362759
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author Dudas, E.
von Gersdorff, G.
Ghilencea, D.M.
Lavignac, S.
Parmentier, J.
author_facet Dudas, E.
von Gersdorff, G.
Ghilencea, D.M.
Lavignac, S.
Parmentier, J.
author_sort Dudas, E.
collection CERN
description Using the constrained superfields formalism to describe the interactions of a light goldstino to matter fields in supersymmetric models, we identify generalised, higher-order holomorphic superfield constraints that project out the superpartners and capture the non-universal couplings of the goldstino to matter fields. These arise from microscopic theories in which heavy superpartners masses are of the order of the supersymmetry breaking scale (\sqrt f). In the decoupling limit of infinite superpartners masses, these constraints reduce to the familiar, lower-order universal constraints discussed recently, that describe the universal goldstino-matter fields couplings, suppressed by inverse powers of \sqrt f. We initiate the study of the couplings of the Standard Model (SM) fields to goldstino in the constrained superfields formalism.
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institution Organización Europea para la Investigación Nuclear
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publishDate 2011
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spelling cern-13627592023-03-14T16:57:28Zdoi:10.1016/j.nuclphysb.2011.10.011http://cds.cern.ch/record/1362759engDudas, E.von Gersdorff, G.Ghilencea, D.M.Lavignac, S.Parmentier, J.On non-universal Goldstino couplings to matterParticle Physics - TheoryUsing the constrained superfields formalism to describe the interactions of a light goldstino to matter fields in supersymmetric models, we identify generalised, higher-order holomorphic superfield constraints that project out the superpartners and capture the non-universal couplings of the goldstino to matter fields. These arise from microscopic theories in which heavy superpartners masses are of the order of the supersymmetry breaking scale (\sqrt f). In the decoupling limit of infinite superpartners masses, these constraints reduce to the familiar, lower-order universal constraints discussed recently, that describe the universal goldstino-matter fields couplings, suppressed by inverse powers of \sqrt f. We initiate the study of the couplings of the Standard Model (SM) fields to goldstino in the constrained superfields formalism.Using the constrained superfields formalism to describe the interactions of a light goldstino to matter fields in supersymmetric models, we identify generalized, higher-order holomorphic superfield constraints that project out the superpartners and capture the non-universal couplings of the goldstino to matter fields. These arise from microscopic theories in which heavy superpartners masses are of the order of the supersymmetry breaking scale ( f ) . In the decoupling limit of infinite superpartners masses, these constraints reduce to the familiar, lower-order universal constraints discussed recently, that describe the universal goldstino–matter fields couplings, suppressed by inverse powers of f . We initiate the study of the couplings of the Standard Model (SM) fields to goldstino in the constrained superfields formalism.Using the constrained superfields formalism to describe the interactions of a light goldstino to matter fields in supersymmetric models, we identify generalised, higher-order holomorphic superfield constraints that project out the superpartners and capture the non-universal couplings of the goldstino to matter fields. These arise from microscopic theories in which heavy superpartners masses are of the order of the supersymmetry breaking scale (\sqrt f). In the decoupling limit of infinite superpartners masses, these constraints reduce to the familiar, lower-order universal constraints discussed recently, that describe the universal goldstino-matter fields couplings, suppressed by inverse powers of \sqrt f. We initiate the study of the couplings of the Standard Model (SM) fields to goldstino in the constrained superfields formalism.arXiv:1106.5792CPHT-RR051-0611LPT-ORSAY-11-55SACLAY-T11-063CERN-PH-TH-2011-153CERN-PH-TH-2011-153oai:cds.cern.ch:13627592011-06-30
spellingShingle Particle Physics - Theory
Dudas, E.
von Gersdorff, G.
Ghilencea, D.M.
Lavignac, S.
Parmentier, J.
On non-universal Goldstino couplings to matter
title On non-universal Goldstino couplings to matter
title_full On non-universal Goldstino couplings to matter
title_fullStr On non-universal Goldstino couplings to matter
title_full_unstemmed On non-universal Goldstino couplings to matter
title_short On non-universal Goldstino couplings to matter
title_sort on non-universal goldstino couplings to matter
topic Particle Physics - Theory
url https://dx.doi.org/10.1016/j.nuclphysb.2011.10.011
http://cds.cern.ch/record/1362759
work_keys_str_mv AT dudase onnonuniversalgoldstinocouplingstomatter
AT vongersdorffg onnonuniversalgoldstinocouplingstomatter
AT ghilenceadm onnonuniversalgoldstinocouplingstomatter
AT lavignacs onnonuniversalgoldstinocouplingstomatter
AT parmentierj onnonuniversalgoldstinocouplingstomatter

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