Search for an invisible scalar in t t final states at the LHC

Abstract

We use the current t t experimental analysis to look for Dark Matter (DM) particles hidden in the final state. We present a phenomenological study where we successfully perform the reconstruction of a tt system in the presence of a scalar mediator Y0, that couples to both Standard Model (SM) and to DM particles. We use a MadGraph5\aMC@NLO simplified DM model, where signal samples of pp → ttY0 are generated at the Large Hadron Collider (LHC) with both Charge-Parity (CP) -even and CP-odd couplings of Y0 to the top quarks. Different mass scales for the Y0 mediator are considered, from the low mass region ( 0~GeV) to masses close to the Higgs boson mass (125~GeV). The dileptonic final states of the tt system were used in our analysis. The reconstruction of the tt system is done with a kinematic fit, without reconstructing the mediator. All relevant SM backgrounds for the dileptonic tt search at the LHC are considered. Furthermore, CP angular observables were used to probe the CP-nature of the coupling between the mediator and top-quarks, which allowed to set confidence level (CL) limits for those Yukawa couplings as a function of the mediator mass.