Abstract:
We propose an interpretation of a rather significant 650 GeV excess emerged at the Large Hadron Collider (LHC) from CMS Collaboration data in the final state, accompanied by further clusters at 125(90-100) GeV in the system, within the 2-Higgs Doublet Model Type-I (2HDM-I) in presence of a softly broken symmetry. The underlying process that we probe is -initiated production of a CP-odd (or pseudoscalar) Higgs boson , with mass around 650 GeV, decaying into the Standard Model (SM)-like Higgs state (decaying into ) and a boson (decaying into ). We configure this theoretical framework so as to also have in the spectrum a light CP-even (or scalar) Higgs state with mass around 95 GeV, which is included for the purpose of simultaneously explaining additional data anomalies seen in the , and final states while searching for light Higgs states at the Large Electron-Positron (LEP) collider (the first one) and LHC (the last two). By accounting for both experimental and theoretical constraints, our results show that the 2HDM-I can explain all aforementioned anomalies at a significance level of .