Implications of CP-violating Top-Higgs Couplings at LHC and Higgs Factories

Abstract

We utilise the LHC Run-1 and -2 Higgs data to constrain the CP-violating top-Higgs couplings. In order to satisfy the current full Higgs data sets at 2σ level, the CP-odd component Cpt and the CP-even component Cst have to be within the ranges |Cpt|< 0.37 and 0.85 <Cst< 1.20, respectively, which is stronger than the LHC Run-1 bound |Cpt|< 0.54 and 0.68 <Cst< 1.20. With the new bound, we explore the impact on the CP-violating top-Higgs couplings in the Higgs production processes pp tth, thj, hh at 13 TeV LHC, and e+e- hZ, hγ at future 240 GeV Higgs factories. We find that the cross sections of pp tth, pp thj, pp hh, e+e- hZ and e+e- hγ can be enhanced up to 1.41, 1.18, 2.20, 1.001 and 1.09 times as large as the SM predictions, respectively. The future precision measurement of the process e+e- hγ with an accuracy of 5\% will be able to constrain |Cpt|<0.19 at most at a 240 GeV e+e- Higgs factory.