Abstract
In this paper, we examine the consistency of the Large Hadron Collider (LHC) data collected during Runs 1 and 2 by the ATLAS and CMS experiments with the predictions of a 2-Higgs doublet model embedding vectorlike quarks (VLQs) for $pp\ensuremath{\rightarrow}H$, $A$ production and $H$, $A\ensuremath{\rightarrow}\ensuremath{\gamma}\ensuremath{\gamma}$ decay mechanisms, respectively, of (nearly) degenerate $CP$-even ($H$) and $CP$-odd ($A$) Higgs bosons. We show that a scenario containing one single VLQ with electromagnetic charge $2/3$ can explain the above ATLAS and CMS data for masses in the region $350\text{ }\text{ }\mathrm{GeV}\ensuremath{\le}{m}_{\mathrm{VLQ}}\ensuremath{\le}1.5\text{ }\text{ }\mathrm{TeV}$ or so, depending on $\mathrm{tan}\ensuremath{\beta}$, and for several values of the mixing angle between the top quark ($t$) and its VLQ counterpart ($T$). We then perform a global fit onto the model by including all relevant experimental as well as theoretical constraints. The surviving samples of our analysis are discussed within $2\ensuremath{\sigma}$ of the LHC measurements. Additionally, we also comment on the recent anomalous result reported by CMS using Run 2 data on the associated Standard Model Higgs boson production with top quark pairs $pp\ensuremath{\rightarrow}t\overline{t}h$ with an observed significance of $3.3\ensuremath{\sigma}$. Other than these specific examples, we also present a phenomenological analysis of the main features of the model, including the most promising $T$ decay channels.
Highlights
After the Higgs boson discovery in Run 1 of the Large Hadron Collider (LHC) at CERN [1,2], the ATLAS and CMS collaborations have carried out a broad program looking for new physics beyond the Standard Model (BSM) at the TeV scale
We examine the consistency of the Large Hadron Collider (LHC) data collected during Runs 1 and 2 by the ATLAS and CMS experiments with the predictions of a 2-Higgs doublet model embedding vectorlike quarks (VLQs) for pp → H, A production and H, A → γγ decay mechanisms, respectively, of degenerate CP-even (H) and CP-odd (A) Higgs bosons
In our rather simple scenario, i.e., in the case of a singlet VLQ, if we neglect the first and second generation mixing, the heavy top T will decay into the following final states: Wþb, Zt, and ht, where, as explained, h plays the role of the SM-like Higgs state
Summary
After the Higgs boson discovery in Run 1 of the Large Hadron Collider (LHC) at CERN [1,2], the ATLAS and CMS collaborations have carried out a broad program looking for new physics beyond the Standard Model (BSM) at the TeV scale. They have developed a powerful detection machinery of spin-0 resonances. Let us assume that additional (pseudo)scalar objects possibly behind the LHC experimental data do originate from the same EWSB mechanism governing the generation of the ≈125 GeV Higgs state. In the three subsequent sections, we present our results, followed by our conclusions
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