Probing Lepton Flavor Violation Signal via \gamma\gamma\to l_i\barl_j in the Left-Right Twin Higgs Model at the ILC

TL;DR

This paper investigates lepton flavor violation signals in gamma-gamma collisions within the left-right twin Higgs model, showing potential for detection and constraints on model parameters at the ILC.

Contribution

It explores lepton flavor violating processes in gamma-gamma collisions in the left-right twin Higgs model, highlighting their detectability and utility in constraining model parameters.

Findings

Production rates can be large in specific parameter spaces.

Collisions can effectively constrain model parameters.

Potential for detection at the ILC with suitable cuts.

Abstract

To explain the small neutrino masses, heavy Majorana neutrinos are introduced in the left-right twin Higgs model. The heavy neutrinos, together with the charged scalars and the heavy gauge bosons, may contribute large mixings between the neutrinos and the charged leptons, which may induce some distinct lepton flavor violating processes. We will check the \bar \ell_i \ell_j (i,j= e,\mu,\tau,i\neq j) productions in the \gamma\gamma collision in the left-right twin Higgs model, and find that the production rates may be large in some specific parameter space, in the optimal cases even possible to be detected with reasonable kinematical cuts. we have also shown that these collisions can constrain effectively the model parameters such as the Higgs vacuum expectation value and the right-handed neutrino mass, etc., and may serve as a sensitive probe of this new physics model.