Direct Higgs-top CP-phase measurement with tth at the 14 TeV LHC and 100 TeV FCC

Abstract

The study of the Higgs boson's properties is a cornerstone of the LHC and future collider programs. In this paper, we examine the potential to directly probe the Higgs-top interaction strength and CP-structure in the t t h channel with the Higgs boson decaying to bottom-quark pairs and top-quarks in the di-leptonic mode. We adopt the BDRS algorithm to tag the boosted Higgs and exploit the M2-assisted reconstruction to compute observables sensitive to the CP-phase at the tt rest frame, where the new physics sensitivity can be enhanced. Performing a side-band analysis at the LHC to control the continuum ttbb background, we find that the Higgs-top strength and CP-phase can be probed up to δt 20\% and | α | 36 at 95% CL, respectively. We also derive that a similar analysis at a 100 TeV future collider could further improve the precision to δt 1\% and | α| 1.5, where the CP-odd observables play a crucial role, boosting the sensitivity on the CP-phase.