On the scalar potential of two-Higgs doublet models

TL;DR

This paper analyzes the scalar potential of the Two-Higgs Doublet Model (2HDM), including quantum corrections and symmetry-breaking terms, confirming the stability of the electroweak vacuum in light of LHC data.

Contribution

It provides a comprehensive one-loop analysis of the 2HDM potential with symmetry-breaking terms, extending previous tree-level studies and confirming the stability of the electroweak vacuum.

Findings

LHC data constrains the parameter space to favor a deeper electroweak vacuum.

Including symmetry-breaking terms does not alter the vacuum hierarchy.

One-loop corrections reinforce the stability of the electroweak minimum.

Abstract

We perform a detailed analysis of the Two-Higgs Doublet Model (2HDM) potential. At the tree-level, the potential may accommodate more than one minima, one of them being the electroweak (EW) minimum where the universe lives. The parameter space allowed after the data from the Large Hadron Collider (LHC) came in almost excludes those cases where the EW vacuum is shallower than the second minimum. We extend the analysis by including terms in the 2HDM potential that break the $Z_2$ symmetry of the potential by dimension-4 operators and show that the conclusions remain unchanged. Furthermore, a one-loop analysis of the potential is performed for both cases, namely, where the $Z_2$ symmetry of the potential is broken by dimension-2 or dimension-4 operators. For quantitative analysis, we show our results for the Type-II 2HDM, qualitative results remaining the same for other 2HDMs. We find that the nature of the vacua from the tree-level analysis does not change; the EW vacuum still remains deeper.