TeV-scale Supersymmetric Standard Model with Higgs as a Slepton

TL;DR

This paper explores a TeV-scale supersymmetric model where the Higgs is identified as a slepton, addressing issues like proton stability, neutrino mass generation, gauge unification, flavor suppression, and supersymmetry breaking.

Contribution

It introduces a novel TeV-scale SUSY model with Higgs as a slepton, proposing mechanisms for neutrino masses, gauge unification, and flavor suppression within this framework.

Findings

Proton stability achieved by gauging baryon number symmetry.

Small Majorana neutrino masses generated via higher-dimensional mechanisms.

Gauge coupling unification comparable to MSSM at one loop.

Abstract

Recently it was pointed out that in the TeV-scale brane world there is a logical possibility where the electroweak Higgs can be identified with a fourth generation slepton. In this paper we address various issues in this four-generation TeV-scale Supersymmetric Standard Model with Higgs as a slepton. In particular we discuss how to achieve proton stability by suppressing the corresponding baryon number violating operators via gauging (a discrete subgroup of) the baryon number U(1) symmetry. Dimension five lepton number violating operators which would result in unacceptably large neutrino masses can be similarly suppressed via gauging a discrete subgroup of the lepton number U(1) symmetry. In fact, the four generation feature allows for a novel higher dimensional mechanism for generating small Majorana neutrino masses. We also discuss how to achieve gauge coupling unification, which can be as precise at one loop as in the MSSM, and point out a possible geometric embedding of the corresponding matter content in the brane world context. Finally, we discuss adequate suppression of flavor changing neutral currents in this model, and also point out a novel possibility for supersymmetry breaking via a non-zero F-term of the fourth generation lepton superfield.