Spontaneous CP violation by modulus τ in A4 model of lepton flavors

Okada, Hiroshi; Tanimoto, Morimitsu

doi:10.1007/jhep03(2021)010

Cited by 68 publications

(32 citation statements)

References 105 publications

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“…We show the best fit values of the input parameters and the predictions of the mixing parameters and neutrino masses in table 7 under the assumption of NO neutrino masses. The A 4 modular model with gCP symmetry was recently studied in [30], and a lepton model with 8 parameters was proposed. It corresponds to the D 2 -W 2 model in our work, see table 7 for the numerical results of this model.…”

Section: (B) Models With 8 Real Parametersmentioning

confidence: 99%

“…We see that the quark and lepton mass hierarchies require hierarchical values of the coupling constants, this can be naturally achieved by the weighton mechanism in which modular symmetry singlet field with non-vanishing modular weight plays the role of flavon [25]. The mass hierarchies of the charged leptons could possibly be addressed by modular symmetry around certain fixed points of the complex modulus τ , but generally more free parameters are necessary [30,74,75]. The corresponding predictions for masses and mixing parameters of leptons and quarks are given as We find that all of these observables are predicted to lie in the experimentally preferred 3σ ranges.…”

Section: Jhep05(2021)102mentioning

confidence: 99%

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Modular invariant A4 models for quarks and leptons with generalized CP symmetry

Yao

Ding

2021

J. High Energ. Phys.

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We perform a systematical analysis of the A4 modular models with generalized CP for the masses and flavor mixing of quarks and leptons, and the most general form of the quark and lepton mass matrices is given. The CP invariance requires all couplings real in the chosen basis and thus the vacuum expectation value of the modulus τ uniquely breaks both the modular symmetry and CP symmetry. The phenomenologically viable models with minimal number of free parameters and the results of fit are presented. We find 20 models with 7 real free parameters that can accommodate the experimental data of lepton sector. We then apply A4 modular symmetry to the quark sector to explain quark masses and CKM mixing matrix, the minimal viable quark model is found to contain 10 free real parameters. Finally, we give two predictive quark-lepton unification models which use only 16 real free parameters to explain the flavor patterns of both quarks and leptons.

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Section: (B) Models With 8 Real Parametersmentioning

confidence: 99%

Section: Jhep05(2021)102mentioning

confidence: 99%

Modular invariant A4 models for quarks and leptons with generalized CP symmetry

Yao

Ding

2021

J. High Energ. Phys.

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“…[39,40]. In particular, CP transformation laws of the modulus τ, of chiral matter multiplets and of modular forms have been determined [48] and several models where CP is spontaneously broken have been constructed [48][49][50][51][52][53][54]. Within the more general case of a multidimensional moduli space, consistent CP definitions have been examined recently in the context of symplectic modular invariant theories, where the relevant flavour group is the Siegel modular group [55,56].…”

Section: Introductionmentioning

confidence: 99%

CP symmetry and symplectic modular invariance

2021

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We analyze CP symmetry in symplectic modular-invariant supersymmetric theories. We show that for genus g\ge 3g≥3 the definition of CP is unique, while two independent possibilities are allowed when g\le 2g≤2. We discuss the transformation properties of moduli, matter multiplets and modular forms in the Siegel upper half plane, as well as in invariant subspaces. We identify CP-conserving surfaces in the fundamental domain of moduli space. We make use of all these elements to build a CP and symplectic invariant model of lepton masses and mixing angles, where known data are well reproduced and observable phases are predicted in terms of a minimum number of parameters.

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“…It is worth mentioning that a modular-invariant model with large CP violation around the stabilizer τ = i of the modular A 4 group has been constructed in ref. [54]. Nevertheless, the question why the large CP violation can be generated with a modulus close to τ = i remains to be answered.…”

Section: Jhep07(2021)093mentioning

confidence: 99%

Explicit perturbations to the stabilizer τ = i of modular $$ {A}_5^{\prime } $$ symmetry and leptonic CP violation

Wang

Zhou

2021

J. High Energ. Phys.

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In a class of neutrino mass models with modular flavor symmetries, it has been observed that CP symmetry is preserved at the fixed point (or stabilizer) of the modulus parameter τ = i, whereas significant CP violation emerges within the neighbourhood of this stabilizer. In this paper, we first construct a viable model with the modular $$ {A}_5^{\prime } $$ A 5 ′ symmetry, and explore the phenomenological implications for lepton masses and flavor mixing. Then, we introduce explicit perturbations to the stabilizer at τ = i, and present both numerical and analytical results to understand why a small deviation from the stabilizer leads to large CP violation. As low-energy observables are very sensitive to the perturbations to model parameters, we further demonstrate that the renormalization-group running effects play an important role in confronting theoretical predictions at the high-energy scale with experimental measurements at the low-energy scale.

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Spontaneous CP violation by modulus τ in A4 model of lepton flavors

Cited by 68 publications

References 105 publications

Modular invariant A4 models for quarks and leptons with generalized CP symmetry

Modular invariant A4 models for quarks and leptons with generalized CP symmetry

CP symmetry and symplectic modular invariance

Explicit perturbations to the stabilizer τ = i of modular $$ {A}_5^{\prime } $$ symmetry and leptonic CP violation

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