Di-Higgs production as a probe of flavor changing neutral Yukawa couplings

Abstract

Top partners are well motivated in many new physics models. Usually, vector like quarks TL,R are introduced to avoid the quantum anomaly. It is crucial to probe their interactions with the standard model particles. However, flavor changing neutral couplings are always difficult to detect directly in the current and future experiments. In this paper, we will show how to constrain the flavor changing neutral Yukawa coupling Tth through the di-Higgs production indirectly. We consider the simplified model including a pair of gauge singlet TL,R. Under the perturbative unitarity and experimental constraints, we choose mT=400~GeV,sL=0.2 and mT=800~GeV,sL=0.1 as benchmark points. After the analysis of amplitude and evaluation of the numerical cross sections, we find that the present constraints from di-Higgs production have already surpassed the unitarity bound because of the (yL,RtT)4 behavior. For the case of mT=400~GeV and sL=0.2, ReyL,RtT and ImyL,RtT can be bounded optimally in the range (-0.4, 0.4) at HL-LHC with 2σ CL. For the case of mT=800~GeV and sL=0.1, ReyL,RtT and ImyL,RtT can be bounded optimally in the range (-0.5, 0.5) at HL-LHC with 2σ CL. The anomalous triple Higgs coupling δhhh can also affect the constraints on yL,RtT. Finally, we find that the top quark electric dipole moment can give stronger bounds of yL,RtT in the off-axis regions for some scenarios.