Leptonic dipole operator with 2 modular invariance in light of Muon (g-2)μ

Abstract

We have studied the leptonic EDM and the LFV decays relating with the recent data of anomalous magnetic moment of muon, (g-2)μ in the leptonic dipole operator. We have adopted the successful 2 modular invariant model by Meloni-Parriciatu as the flavor symmetry of leptons. Suppose the anomaly of (g-2)μ, aμ to be evidence of New Physics (NP), we have related it with the anomalous magnetic moment of the electron ae, the electron EDM de and the μ e γ decay. We found that the NP contributions to ae(μ) are proportional to the lepton masses squared likewise the naive scaling a m2. The experimental constraint of |de| is much tight compared with the one from the branching ratio B (μ e γ) in our framework. Supposing the phase of our model parameter δα for the electron to be of order one, we have estimated the upper-bound of B(μ e γ), which is at most 10-21-10-20. If some model parameters are real, leptonic EDMs vanish since the CP phase of the modular form due to modulus τ does not contribute to the EDM. However, we can obtain B (μ e γ) 10-13 with non-vanishing de in a specific case. The imaginary part of a parameter can lead to de in the next-to-leading contribution. The predicted electron EDM is below 10-32e\,cm, while B (μ e γ) is close to the experimental upper-bound. The branching ratios of τ eγ and τ μγ are also discussed.