Dynamical solution to the $\mu$ problem at TeV scale

Kiwoon Choi; Hyung Do Kim

arXiv:hep-ph/9906363·hep-ph·August 25, 2016

Dynamical solution to the $\mu$ problem at TeV scale

Kiwoon Choi, Hyung Do Kim

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TL;DR

This paper proposes a new confining force at TeV scale to dynamically generate the parameter in the MSSM, offering a novel solution to the problem with distinctive phenomenological features.

Contribution

It introduces a -generation mechanism via a confining force at TeV scale, differing from previous solutions and impacting Higgs phenomenology and supersymmetry breaking patterns.

Findings

01

A new -generation mechanism consistent with electroweak symmetry breaking

02

Distinctive Higgs phenomenology compared to MSSM

03

Unique soft supersymmetry breaking patterns

Abstract

We introduce a new confining force (\mu-color) at TeV scale to dynamically generate a supersymmetry preserving mass scale which would replace the \mu parameter in the minimal supersymmetric standard model (MSSM). We discuss the Higgs phenomenology and also the pattern of soft supersymmetry breaking parameters allowing the correct electroweak symmetry breaking within the \mu-color model, which have quite distinctive features from the MSSM and also from other generalizations of the MSSM.

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