Muon g − 2 in gauge mediation without SUSY CP problem

Muon g − 2 in gauge mediation without SUSY CP problem

Abstract We discuss gauge mediated supersymmetry breaking models which explain the observed muon anomalous magnetic moment and the Higgs boson mass simultaneously. The successful explanation requires the messenger sector which violates the relation motivated by the grand unification theory (GUT). Th...

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Main Authors: Masahiro Ibe, Shin Kobayashi, Yuhei Nakayama, Satoshi Shirai
Format: Article
Language:English
Published: SpringerOpen 2021-07-01
Series:Journal of High Energy Physics
Subjects:
Supersymmetry Phenomenology
Online Access:https://doi.org/10.1007/JHEP07(2021)098
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spelling doaj-03b4a42879ef40c4b3b7d70b55d1e3a72021-07-25T11:45:12ZengSpringerOpenJournal of High Energy Physics1029-84792021-07-012021713410.1007/JHEP07(2021)098Muon g − 2 in gauge mediation without SUSY CP problemMasahiro Ibe0Shin Kobayashi1Yuhei Nakayama2Satoshi Shirai3Institute for Cosmic Ray Research, The University of TokyoInstitute for Cosmic Ray Research, The University of TokyoInstitute for Cosmic Ray Research, The University of TokyoKavli Institute for the Physics and Mathematics of the Universe (WPI), The University of Tokyo Institutes for Advanced Study, The University of TokyoAbstract We discuss gauge mediated supersymmetry breaking models which explain the observed muon anomalous magnetic moment and the Higgs boson mass simultaneously. The successful explanation requires the messenger sector which violates the relation motivated by the grand unification theory (GUT). The naive violation of the GUT relation, however, ends up with the CP problem. We propose a model in which the phases of the gaugino masses are aligned despite the violation of the GUT relation. We also consider a model which generates the μ-term and the additional Higgs soft masses squared without causing CP violation. As a result, we find a successful model which explains the muon anomalous magnetic moment and the Higgs boson mass. The model is also free from the CP, flavor-changing neutral current and the lepton flavor violation problems caused by the subdominant gravity mediation effects. The lightest supersymmetric particles are gravitino/goldstini and the next-to-lightest ones are the Wino/Higgsinos in the typical parameter space. We also study the LHC constraints.https://doi.org/10.1007/JHEP07(2021)098Supersymmetry Phenomenology
collection DOAJ
language English
format Article
sources DOAJ
author Masahiro Ibe
Shin Kobayashi
Yuhei Nakayama
Satoshi Shirai
spellingShingle Masahiro Ibe
Shin Kobayashi
Yuhei Nakayama
Satoshi Shirai
Muon g − 2 in gauge mediation without SUSY CP problem
Journal of High Energy Physics
Supersymmetry Phenomenology
author_facet Masahiro Ibe
Shin Kobayashi
Yuhei Nakayama
Satoshi Shirai
author_sort Masahiro Ibe
title Muon g − 2 in gauge mediation without SUSY CP problem
title_short Muon g − 2 in gauge mediation without SUSY CP problem
title_full Muon g − 2 in gauge mediation without SUSY CP problem
title_fullStr Muon g − 2 in gauge mediation without SUSY CP problem
title_full_unstemmed Muon g − 2 in gauge mediation without SUSY CP problem
title_sort muon g − 2 in gauge mediation without susy cp problem
publisher SpringerOpen
series Journal of High Energy Physics
issn 1029-8479
publishDate 2021-07-01
description Abstract We discuss gauge mediated supersymmetry breaking models which explain the observed muon anomalous magnetic moment and the Higgs boson mass simultaneously. The successful explanation requires the messenger sector which violates the relation motivated by the grand unification theory (GUT). The naive violation of the GUT relation, however, ends up with the CP problem. We propose a model in which the phases of the gaugino masses are aligned despite the violation of the GUT relation. We also consider a model which generates the μ-term and the additional Higgs soft masses squared without causing CP violation. As a result, we find a successful model which explains the muon anomalous magnetic moment and the Higgs boson mass. The model is also free from the CP, flavor-changing neutral current and the lepton flavor violation problems caused by the subdominant gravity mediation effects. The lightest supersymmetric particles are gravitino/goldstini and the next-to-lightest ones are the Wino/Higgsinos in the typical parameter space. We also study the LHC constraints.
topic Supersymmetry Phenomenology
url https://doi.org/10.1007/JHEP07(2021)098
work_keys_str_mv AT masahiroibe muong2ingaugemediationwithoutsusycpproblem
AT shinkobayashi muong2ingaugemediationwithoutsusycpproblem
AT yuheinakayama muong2ingaugemediationwithoutsusycpproblem
AT satoshishirai muong2ingaugemediationwithoutsusycpproblem
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