Charged lepton flavor violation in extended BLMSSM

TL;DR

This paper investigates charged lepton flavor violation in the extended BLMSSM, introducing new particles and interactions that lead to novel contributions to CLFV processes, with numerical results supporting potential new physics beyond the Standard Model.

Contribution

The paper develops the EBLMSSM by adding exotic Higgs and superfields, redefining particles, and analyzing their effects on CLFV processes, providing new theoretical insights and numerical predictions.

Findings

New contributions to CLFV processes in EBLMSSM

Numerical results consistent with experimental constraints

Encourages exploration of physics beyond the Standard Model

Abstract

Within the extended BLMSSM, the exotic Higgs superfields $(\Phi_{NL},\varphi_{NL})$ are added to make the exotic leptons heavy, and the superfields ($Y$,$Y^\prime$) are also introduced to make exotic leptons unstable. This new model is named as the EBLMSSM. We study some charged lepton flavor violating (CLFV) processes in detail in the EBLMSSM, including $l_j\rightarrow l_i \gamma$, muon conversion to electron in nuclei, the $\tau$ decays and $h^0\rightarrow l_i l_j$. Being different from BLMSSM, some particles are redefined in this new model, such as slepton, sneutrino, exotic lepton (neutrino), exotic slepton (sneutrino) and lepton neutralino. We also introduce the mass matrices of superfields $Y$ and spinor $\tilde{Y}$ in the EBLMSSM. All of these lead to new contributions to the CLFV processes. In the suitable parameter space, we obtain the reasonable numerical results. The results of this work will encourage physicists to explore new physics beyond the SM.