Phenomenology of Supersymmetric Models with a Symmetry-Breaking Seesaw Mechanism

TL;DR

This paper investigates a supersymmetric model where a symmetry-breaking seesaw mechanism induces electroweak symmetry breaking, resulting in multiple composite Higgs bosons and potential for electroweak baryogenesis, with implications for collider experiments.

Contribution

It introduces a novel supersymmetric model with a symmetry-breaking seesaw mechanism leading to multiple composite Higgs bosons and new sources of CP violation.

Findings

Electroweak phase transition can be first-order.

Additional CP violation sources are identified.

Potential discovery at LHC or future colliders.

Abstract

We explore phenomenological implications of the minimal supersymmetric standard model (MSSM) with a strong supersymmetry breaking trilinear term. Supersymmetry breaking can trigger electroweak symmetry breaking via a symmetry-breaking seesaw mechanism, which can lead to a low-energy theory with multiple composite Higgs bosons. In this model, the electroweak phase transition can be first-order for some generic values of parameters. Furthermore, there are additional sources of CP violation in the Higgs sector. This opens the possibility of electroweak baryogenesis in the strongly coupled MSSM. The extended Higgs dynamics can be discovered at Large Hadron Collider or at a future linear collider.