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Learning about the strongly interacting symmetry breaking sector at LHC

In the present work we study the predictions for WZ and ZZ production at LHC with the Electroweak Chiral Lagrangian (EChL) approach. Our analysis will be focused on the less favored case from the experimental point of view, in which the predictions for the gauge bosons scattering amplitudes are cons...

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Detalles Bibliográficos
Autores principales: Dobado, A., Herrero, M.J., Pelaez, J.R., Ruiz Morales, E., Urdiales, M.T.
Lenguaje:eng
Publicado: 1995
Materias:
Acceso en línea:https://dx.doi.org/10.1016/0370-2693(95)00431-J
http://cds.cern.ch/record/277057
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author Dobado, A.
Herrero, M.J.
Pelaez, J.R.
Ruiz Morales, E.
Urdiales, M.T.
author_facet Dobado, A.
Herrero, M.J.
Pelaez, J.R.
Ruiz Morales, E.
Urdiales, M.T.
author_sort Dobado, A.
collection CERN
description In the present work we study the predictions for WZ and ZZ production at LHC with the Electroweak Chiral Lagrangian (EChL) approach. Our analysis will be focused on the less favored case from the experimental point of view, in which the predictions for the gauge bosons scattering amplitudes are considered in the low energy range where, by construction of the low energy approach, they reveal no resonant behavior. The study includes the complete set of amplitudes for all the polarization states of the initial and/or final gauge bosons and makes no use of the Equivalence Theorem. We express the results in terms of the range of values of the chiral parameters that will be accessible at LHC.
id cern-277057
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1995
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spelling cern-2770572023-03-14T16:58:30Zdoi:10.1016/0370-2693(95)00431-Jhttp://cds.cern.ch/record/277057engDobado, A.Herrero, M.J.Pelaez, J.R.Ruiz Morales, E.Urdiales, M.T.Learning about the strongly interacting symmetry breaking sector at LHCParticle Physics - PhenomenologyIn the present work we study the predictions for WZ and ZZ production at LHC with the Electroweak Chiral Lagrangian (EChL) approach. Our analysis will be focused on the less favored case from the experimental point of view, in which the predictions for the gauge bosons scattering amplitudes are considered in the low energy range where, by construction of the low energy approach, they reveal no resonant behavior. The study includes the complete set of amplitudes for all the polarization states of the initial and/or final gauge bosons and makes no use of the Equivalence Theorem. We express the results in terms of the range of values of the chiral parameters that will be accessible at LHC.In the present work we study the predictions for $WZ$ and $ZZ$ production at LHC with the Electroweak Chiral Lagrangian (EChL) approach. Our analysis will be focused on the less favored case from the experimental point of view, in which the predictions for the gauge bosons scattering amplitudes are considered in the low energy range where, by construction of the low energy approach, they reveal no resonant behavior. The study includes the complete set of amplitudes for all the polarization states of the initial and/or final gauge bosons and makes no use of the Equivalence Theorem. We express the results in terms of the range of values of the chiral parameters that will be accessible at LHC.In the present work we study the predictions for $WZ$ and $ZZ$ production at LHC with the Electroweak Chiral Lagrangian (EChL) approach. Our analysis will be focused on the less favored case from the experimental point of view, in which the predictions for the gauge bosons scattering amplitudes are considered in the low energy range where, by construction of the low energy approach, they reveal no resonant behavior. The study includes the complete set of amplitudes for all the polarization states of the initial and/or final gauge bosons and makes no use of the Equivalence Theorem. We express the results in terms of the range of values of the chiral parameters that will be accessible at LHC.In the present work we study the predictions for WZ and ZZ production at the LHC with the Electroweak Chiral Lagrangian (EChL) approach. Our analysis will be focused on the less favored case from the experimental point of view, in which the predictions for the gauge bosons scattering amplitudes are considered in the low energy range where, by construction of the low energy approach, they reveal no resonant behavior. The study includes the complete set of amplitudes for all the polarization states of the initial and/or final gauge bosons and makes no use of the Equivalence Theorem. We express the results in terms of the range of values of the chiral parameters that will be accessible at the LHC.hep-ph/9502309FTUAM-94-30FTUCM-94-20CMS-TN-94-276CMS-TN-94-276FTUAM-94-20FTUAM-94-30oai:cds.cern.ch:2770571995-02-15
spellingShingle Particle Physics - Phenomenology
Dobado, A.
Herrero, M.J.
Pelaez, J.R.
Ruiz Morales, E.
Urdiales, M.T.
Learning about the strongly interacting symmetry breaking sector at LHC
title Learning about the strongly interacting symmetry breaking sector at LHC
title_full Learning about the strongly interacting symmetry breaking sector at LHC
title_fullStr Learning about the strongly interacting symmetry breaking sector at LHC
title_full_unstemmed Learning about the strongly interacting symmetry breaking sector at LHC
title_short Learning about the strongly interacting symmetry breaking sector at LHC
title_sort learning about the strongly interacting symmetry breaking sector at lhc
topic Particle Physics - Phenomenology
url https://dx.doi.org/10.1016/0370-2693(95)00431-J
http://cds.cern.ch/record/277057
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AT herreromj learningaboutthestronglyinteractingsymmetrybreakingsectoratlhc
AT pelaezjr learningaboutthestronglyinteractingsymmetrybreakingsectoratlhc
AT ruizmoralese learningaboutthestronglyinteractingsymmetrybreakingsectoratlhc
AT urdialesmt learningaboutthestronglyinteractingsymmetrybreakingsectoratlhc