Scalar mass dependence of angular variables in t tφ production

Abstract

In this paper we explore CP discrimination in the associated production of top-quark pairs (tt) with a generic scalar boson (φ) at the LHC. We probe the CP-sensitivity of several observables for a varying scalar boson mass and CP-number, either CP-even (φ=H) or CP-odd (φ=A), using dileptonic final states of the ttφ system, with φ→ bb. We show that CP-searches are virtually impossible for φ boson masses above a few hundred GeV in this channel. A full phenomenological analysis was performed, using Standard Model background and signal events generated with MadGraph5 MC@NLO and reconstructed using a kinematic fit. The most sensitive CP-observables are used to compute Confidence Levels (CLs), as a function of luminosity, for the exclusion of different signal hypotheses with scalar and pseudoscalar boson masses that range from mφ = 40 GeV up to 200 GeV. We finalize by analysing the impact of a measurement (or limit) of the CP-violating angle in the parameter space of a complex two-Higgs doublet model known as the C2HDM.