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Vacuum Stability and Higgs Diphoton Decay Rate in the Zee-Babu Model

arXiv:1212.6272 · doi:10.1007/JHEP06(2013)039

Abstract

Although recent Higgs data from ATLAS and CMS are compatible with a Standard Model (SM) signal at $2σ$ level, both experiments see indications for an excess in the diphoton decay channel, which points to new physics beyond the SM. Given such a low Higgs mass $m_H \sim 125 {\rm GeV}$, another sign indicating the existence of new physics beyond the SM is the vacuum stability problem, i.e., the SM Higgs quartic coupling may run to negative values at a scale below the Planck scale. In this paper, we study the vacuum stability and enhanced Higgs diphoton decay rate in the Zee-Babu model, which was used to generate tiny Majorana neutrino masses at two-loop level. We find that it is rather difficult to find overlapping regions allowed by the vacuum stability and diphoton enhancement constraints. As a consequence, it is almost inevitable to introduce new ingredients into the model, in order to resolve these two issues simultaneously.

19 pages, 6 figures