Phenomenology of additional scalar bosons at the LHC

TL;DR

This paper explores an extended two-Higgs doublet model with additional scalars, analyzing potential LHC signatures and constraints, especially focusing on dark matter candidate $hi$ and scalar mixing effects.

Contribution

It introduces a minimal extension of the THDM with two real scalars, detailing their mass spectrum, mixing, and potential LHC search channels, along with phenomenological constraints.

Findings

Proposes specific mass ranges for new scalars consistent with current data.

Identifies promising LHC search channels for the new scalars.

Discusses constraints on model parameters from phenomenology.

Abstract

The confirmation of the Higgs boson in Run I data at the Large Hadron Collider (LHC) and the excesses in recent Run II data suggest scenarios beyond the Standard Model (SM). We pursue a study in a minimal model which is an extension of a scalar doublet in the SM known as two-Higgs doublet model (THDM). Following earlier suggestions two real scalars $\chi$ and $S$ have been introduced in the THDM where $\chi$ is treated as a candidate for dark matter. $\chi$ does not receive any vacuum expectation value ($vev$) in the model whereas the Higgs-like scalar $S$ acquires $vev$. This allows small mixing between the $CP$-even scalars of the THDM, $h$, $H$ and $S$. In this study the mass spectrum of new scalars is taken to be $2 m_h < m_H < 2 m_t$, $m_\chi < m_h/2$, $m_h \lesssim m_S \lesssim m_H - m_h$, $m_A > 2 m_t$ and $m_H^\pm < m_A$, where $m_h$ and $m_t$ is masses of the SM Higgs and top-quark respectively, $m_H, m_A$ and $m_{H^\pm}$ are the masses of the heavy $CP$-even scalar $H$, $CP$-odd scalar $A$, and charged Higgs $H^\pm$, respectively. A partial list of potential search channels at the LHC has been provided with possible phenomenological consequences. The expected phenomenology and constraints on parameters are also discussed in a model-independent approach .