Energy Growth in VLVL VLVL,\ VLVLh Scattering to Probe Higgs Cubic and HEFT Interactions

Abstract

We compute the energy scales of perturbative unitarity violation in VL VL VL VL h processes and compare them to VL VL hhh process, where VL refers to a longitudinal mode of Z or W boson, and h the Higgs boson. Using these energy scales, we determine which process is more sensitive to potential modifications in the Higgs sector at high-energy colliders. Within the Higgs Effective Field Theory (HEFT), we consider the Higgs cubic coupling and other interactions with and without derivatives. Any HEFT interactions predict the perturbative unitarity violation at a finite scale, and in a generic case, the minimalistic process is 2 3 scattering. Our analysis reveals that the energy scales for unitarity violation in VL VL VL VL h and VL VL hhh processes are similar across all scenarios considered. If the backgrounds are similar, VL VL h final states are more feasible because VL VL h has higher branching ratios in cleaner decay modes than hhh. We also investigate HEFT derivative interactions derived from various UV models. In these cases, both VL VL VL VL and VL VL hh processes exhibit unitarity violating behavior. We demonstrate that the energy scales for unitarity violation in VL VL final states are comparable to or even lower than those in the hh final state.