The Higgs Potential in 2HDM extended with a Real Triplet Scalar: A roadmap

Abstract

We perform a comprehensive study of The Higgs potential of the two Higgs doublet model extended by a real triplet scalar field . This model, dubbed 2HDM+T, has a rich Higgs spectrum consisting of three CP-even Higgs h1,2,3, one CP-odd A0 and two pairs of charged Higgs H1,2. First, we determine the perturbative unitarity constraints and a set of non trivial conditions for the boundedness from below (BFB). Then we derive the Veltman conditions by considering the quadratic divergencies of Higgs boson self energies in 2HDM+T. We find that the parameter space is severely delimited by these theoretical constraints, as well as experimental exclusion limits and Higgs signal rate measurements at LEP and LHC. Using HiggsBounds-5.3.2beta and HiggSignals-2.2.3beta public codes an exclusion test at 2σ is then performed on the physical scalars of 2HDM+T. Our analysis provides a clear insight on the nonstandard scalar masses, showing that the allowed ranges are strongly sensitive to the sign of mixing angle α1, essentially when naturalness is involved. For α1 < 0 scenario, our results place higher limits on the bounds of all scalar masses, and show that the pairs (h2, H1) and (h3, H2) are nearly mass degenerate varying within the intervals [130\,,\,246]~GeV and [160\,,\,335]~GeV respectively. When α1 turns positive, we show that consistency with theoretical constraints and current LHC data, essentially on the diphoton decay channel, favors Higgs masses varying within wide allowed ranges: [153\,,\,973]~GeV for mA0; [151\,,\,928]~GeV for (mh2, mH1) and [186\,,\,979]~GeV for (mh3, mH2). Finally, we find that the γ γ and Zγ Higgs decay modes are generally correlated.