Dynamical Electroweak Symmetry Breaking in the model of electroweak-scale right-handed neutrinos

TL;DR

This paper explores a model where electroweak symmetry is dynamically broken by condensates of mirror quarks and right-handed neutrinos, leading to a rich Higgs spectrum and involving Schwinger-Dyson analysis.

Contribution

It introduces a dynamical mechanism for electroweak symmetry breaking involving mirror quarks and right-handed neutrinos with a detailed Schwinger-Dyson investigation.

Findings

Dynamical formation of condensates of mirror quarks and right-handed neutrinos.

Prediction of a rich Higgs spectrum from condensate formation.

Analysis of Higgs VEVs in a dynamical symmetry breaking context.

Abstract

We present the Higgs mechanism in the context of the EW-scale $\nu_R$ model in which electroweak symmetry is dynamically broken by condensates of mirror quark and right-handed neutrino through the exchange of one fundamental Higgs doublet and one fundamental Higgs triplet, respectively. The formation of these condensates is dynamically investigated by using the Schwinger-Dyson approach. The occurrence of these condensates will give rise to the rich Higgs spectrum. In addition, the VEVs of Higgs fields is also discussed in this dynamical phenomenon.