Some implications of lepton flavor violating processes in a supersymmetric Type II seesaw model at TeV scale

TL;DR

This paper explores a supersymmetric Type II seesaw model at TeV scale, analyzing how lepton flavor violating processes constrain triplet Higgs masses and affect decay patterns and observable quantities.

Contribution

It introduces a TeV-scale supersymmetric Type II seesaw model with scalar and fermionic triplet Higgs states and studies LFV constraints on their properties and decays.

Findings

LFV processes constrain triplet Higgs masses.

LFV constraints influence decay modes of triplet Higgses.

Implications for muon anomalous magnetic moment and decay patterns.

Abstract

We have conceived a supersymmetric Type II seesaw model at TeV scale, which has some additional particles consisting of scalar and fermionic triplet Higgs states, whose masses being around few hundred GeV. In this particular model, we have studied constraints on the masses of triplet states arising from the lepton flavor violating (LFV) processes, such as $\mu\to 3e$ and $\mu\to e\gamma$. We have analyzed the implications of these constraints on other observable quantities such as the muon anomalous magnetic moment and the decay patterns of scalar triplet Higgses. Scalar triplet Higgs states can decay into leptons and into supersymmetric fields. We have found that the constraints from LFV can effect these various decay modes.