R-parity conservation via the Stueckelberg mechanism: LHC and Dark Matter Signals

Feldman, Daniel; Pérez, P.; Nath, Pran

doi:10.1007/jhep01(2012)038

Cited by 50 publications

(41 citation statements)

References 151 publications

(250 reference statements)

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“…masses can be generated via spontaneous symmetry breaking due to a scalar field charged under the new gauge symmetry, or via the Stueckelberg mechanism [235][236][237][238], where the existence of such a scalar field is not needed. In the former case, in addition to the Lagrangian we will describe below, interactions involving a scalar field would also show up, but we have already determined the g − 2 and µ → eγ contributions stemming from a scalar field.…”

Section: Neutral Vector Bosonmentioning

confidence: 99%

A call for new physics: The muon anomalous magnetic moment and lepton flavor violation

2018

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We review how the muon anomalous magnetic moment (g − 2) and the quest for lepton flavor violation are intimately correlated. Indeed the decay µ → eγ is induced by the same amplitude for different choices of in-and outgoing leptons. In this work, we try to address some intriguing questions such as:Which hierarchy in the charged lepton sector one should have in order to reconcile possible signals coming simultaneously from g − 2 and lepton flavor violation?What can we learn if the g − 2 anomaly is confirmed by the upcoming flagship experiments at FERMILAB and J-PARC, and no signal is seen in the decay µ → eγ in the foreseeable future? On the other hand, if the µ → eγ decay is seen in the upcoming years, do we need to necessarily observe a signal also in g − 2?.In this attempt, we generally study the correlation between these observables in a detailed analysis of simplified models. We derive master integrals and

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Section: Neutral Vector Bosonmentioning

confidence: 99%

A call for new physics: The muon anomalous magnetic moment and lepton flavor violation

2018

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“…The traditional solution to this problem is to demand that, in addition to the gauge group, the MSSM be invariant under an ad hoc Z 2 finite symmetry -R-parity -which acts on individual component fields as (−1) 3(B−L)+2s . Although there have been many attempts to explain how R-parity can arise in the MSSM [4][5][6][7][8] or be spontaneously…”

Section: Introductionmentioning

confidence: 99%

The minimal SUSY B − L model: from the unification scale to the LHC

Ovrut

Purves

Spinner

2015

J. High Energ. Phys.

151

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This paper introduces a random statistical scan over the high-energy initial parameter space of the minimal SUSY B − L model -denoted as the B − L MSSM. Each initial set of points is renormalization group evolved to the electroweak scale -being subjected, sequentially, to the requirement of radiative B − L and electroweak symmetry breaking, the present experimental lower bounds on the B − L vector boson and sparticle masses, as well as the lightest neutral Higgs mass of ∼125 GeV. The subspace of initial parameters that satisfies all such constraints is presented, shown to be robust and to contain a wide range of different configurations of soft supersymmetry breaking masses. The lowenergy predictions of each such "valid" point -such as the sparticle mass spectrum and, in particular, the LSP -are computed and then statistically analyzed over the full subspace of valid points. Finally, the amount of fine-tuning required is quantified and compared to the MSSM computed using an identical random scan. The B − L MSSM is shown to generically require less fine-tuninng.

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“…The Stueckelberg extension of the MSSM has been studied in Ref. [14] for the case where the new symmetry is only relevant for the hidden sector, while a B − L Stueckelberg extension was studied in [15].…”

Section: The Stueckelberg Mechanismmentioning

confidence: 99%

“…See also Ref. [15] for the application of this mechanism to the conservation of R-parity when the new symmetry is U (1) B−L .…”

Section: The Stueckelberg Mechanismmentioning

confidence: 99%

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Higgs mass and the Stueckelberg mechanism in supersymmetry

Pérez¹,

Spinner²

2014

Phys. Rev. D

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We investigate a class of theories where the mass of the lightest Higgs boson of the Minimal Supersymmetric Standard Model (MSSM) can be larger than the Z gauge boson mass at tree level. In this context the MSSM fields feel a new force, whose corresponding gauge boson attains its mass through the Stueckelberg mechanism. We show how one can achieve a Higgs mass around 126 GeV without assuming a heavy stop spectrum or a large stop trilinear term. The application of this class of models to the conservation of R-parity is also discussed.

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R-parity conservation via the Stueckelberg mechanism: LHC and Dark Matter Signals

Cited by 50 publications

References 151 publications

A call for new physics: The muon anomalous magnetic moment and lepton flavor violation

A call for new physics: The muon anomalous magnetic moment and lepton flavor violation

The minimal SUSY B − L model: from the unification scale to the LHC

Higgs mass and the Stueckelberg mechanism in supersymmetry

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