Study of lepton flavor violation in flavor symmetric models for lepton sector

Kobayashi, Tatsuo; Omura, Yuji; Takayama, Fumihiro; Yasuhara, Daiki

doi:10.1007/jhep10(2015)042

Cited by 9 publications

(9 citation statements)

References 119 publications

(170 reference statements)

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“…In A 4 models, the only processes allowed by the Z 3 residual symmetry are τ − → µ + e − e − , τ − → e + µ − µ − , and all other 3-body and radiative decays are forbidden [67,68]. The latter can take place if the Z 3 symmetry is broken [69], but are typically suppressed due to the consistency with oscillation data, as shown later. Current experimental bounds of the branching ratios of LFV τ 3-body decays τ − → µ + e − e − , e + µ − µ − , µ + µ − µ − , e + e − µ − , µ + µ − e − , e + e − e − , and ratiative decays τ − → µ − γ, e − γ are in general around 10 −8 , measured by Belle [70] and BaBar [71], respectively.…”

Section: Jhep10(2016)145mentioning

confidence: 99%

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Flavon-induced connections between lepton flavour mixing and charged lepton flavour violation processes

Pascoli

Zhou

2016

J. High Energ. Phys.

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Abstract:In leptonic flavour models with discrete flavour symmetries, couplings between flavons and leptons can result in special flavour structures after they gain vacuum expectation values. At the same time, they can also contribute to the other lepton-flavourviolating processes. We study the flavon-induced LFV 3-body charged lepton decays and radiative decays and we take as example the A 4 discrete symmetry. In A 4 models, a Z 3 residual symmetry roughly holds in the charged lepton sector for the realisation of tribimaximal mixing at leading order. The only processes allowed by this symmetry are τ − → µ + e − e − , e + µ − µ − , and the other 3-body and all radiative decays are suppressed by small Z 3 -breaking effects. These processes also depend on the representation the flavon is in, whether pseudo-real (case i) or complex (case ii). We calculate the decay rates for all processes for each case and derive their strong connection with lepton flavour mixing. In case i, sum rules for the branching ratios of these processes are obtained, with typical examples Br(τ − → µ + e − e − ) ≈ Br(τ − → e + µ − µ − ) and Br(τ − → e − γ) ≈ Br(τ − → µ − γ). In case ii, we observe that the mixing between two Z 3 -covariant flavons plays an important role. All processes are suppressed by charged lepton masses and current experimental constraints allow the electroweak scale and the flavon masses to be around hundreds of GeV. Our discussion can be generalised in other flavour models with different flavour symmetries.

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Section: Jhep10(2016)145mentioning

confidence: 99%

“…(3.9) in the limit m 2 → ∞ and ϑ → −45 • . Only in the limit ϑ → 0, τ − → µ + e − e − is suppressed, as discussed in [69].…”

Section: Jhep10(2016)145mentioning

confidence: 99%

Flavon-induced connections between lepton flavour mixing and charged lepton flavour violation processes

Pascoli

Zhou

2016

J. High Energ. Phys.

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“…These can be used to set a lower limit on the HLFV rates [83]. For instance, one finds BR(h → τ µ) 10 −6 10 −7 (39) for normal (inverted) neutrino mass ordering. We refer to [83], where a detailed exploration of the parameter space of the Zee model is performed, concluding that the model can accommodate large HLFV rates, even exceeding the current bounds.…”

Section: Hdms Neutrino Masses and Hlfvmentioning

confidence: 99%

Higgs Lepton Flavor Violating Decays in Two Higgs Doublet Models

Vicente

2019

Front. Phys.

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The discovery of a non-zero rate for a lepton flavor violating decay mode of the Higgs boson would definitely be an indication of New Physics. We review the prospects for such signal in Two Higgs Doublet Models, in particular for Higgs boson decays into τ µ final states. We will show that this scenario contains all the necessary ingredients to provide large flavor violating rates and still be compatible with the stringent limits from direct searches and low-energy flavor experiments.1

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“…In muon-electron conversion, the amplitude is obtained from the exchange of either a Higgs or gauge boson (γ or Z, depicted in Fig. 8) between a loop of virtual vectorlike fermions that are connected nucleons through 9 Recall that the set of couplings λi in τ − µ sector is independent from its counterpart in the µ − e. 10 Either Qαem or g…”

Section: 4mentioning

confidence: 99%

Minimal models of loop-induced lepton flavor violation in Higgs boson decays

et al. 2016

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The LHC has recently reported a slight excess in the h → τ µ channel. If this lepton flavor violating (LFV) decay is confirmed, an extension of the Standard Model (SM) will be required to explain it. In this paper we investigate two different possibilities to accommodate such a LFV process: the first scenario is based on flavor off-diagonal A-terms in the Minimal Supersymmetric Standard Model (MSSM), and the second is a model where the Higgs couples to new vectorlike fermions that couple to the SM leptons through a LFV four fermion interaction. In the supersymmetric model, we find that the sizes of the A-terms needed to accommodate the h → τ µ excess are in conflict with charge-and color-breaking vacuum constraints. In the second model, the excess can be successfully explained while satisfying all other flavor constrains, with order one couplings, vectorlike fermion masses as low as 15 TeV, and a UV scale higher than 35 TeV.

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Study of lepton flavor violation in flavor symmetric models for lepton sector

Cited by 9 publications

References 119 publications

Flavon-induced connections between lepton flavour mixing and charged lepton flavour violation processes

Flavon-induced connections between lepton flavour mixing and charged lepton flavour violation processes

Higgs Lepton Flavor Violating Decays in Two Higgs Doublet Models

Minimal models of loop-induced lepton flavor violation in Higgs boson decays

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