Generalized 2HDM with wrong-sign lepton Yukawa coupling, in light of $g_{mu}-2$ and lepton flavor violation at the future LHC


Abstract in English

To explain the observed muon anomaly and simultaneously evade bounds from lepton flavor violation in the same model parameter space is a long cherished dream. In view of a generalized Two Higgs Doublet Model, with a Yukawa structure as a perturbation of Type-X, we are able to get substantial parameter space satisfying this criteria. We are focusing on a region with {bf wrong-sign} lepton-Yukawa coupling which gives rise to an interesting phenomenological consequences. We found that in the wrong-sign region, it is possible to probe the low-mass pseudoscalar in flavor-violating decay mode with considerably better significance compared to the right-sign region. Performing a simple cut-based analysis we show that at 14 TeV run of the LHC with $300 fb^{-1}$ integrated luminosity, part of the model parameter space can be probed with significance $geq 5sigma$ which further improves with Artificial Neural Network analysis.

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