Probing the CP Structure of the Top Quark Yukawa at the Future Muon Collider

Abstract

We study the top-Higgs coupling with a CP violating phase at a future multi-TeV muon collider. We focus on processes that are directly sensitive to the top quark Yukawa coupling: tth, tbhμ, and tth with h→ bb and semileptonic top decays. At different energies, different processes dominate the cross section, providing complementary information. At and above an energy of O(10) TeV, vector boson fusion processes dominate. As we show, in the Standard Model there is destructive interference in the vector boson fusion processes tth and tbhμ between the top quark Yukawa and Higgs-gauge boson couplings. A CP-violating phase changes this interference, and the cross section measurement is very sensitive to the size of the CP-violating angle. Although we find that the cross sections are measured to O(50\%) statistical uncertainty at 1σ, a 10 and 30 TeV muon collider can bound the CP-violating angle ||9.0 and ||5.4, respectively. However, cross section measurements are insensitive to the sign of the CP-violating angle. To determine that the coupling is truly CP violating, observables sensitive to CP-violation must be measured. We find in the tth process the azimuthal angle between the t+t plane and the initial state muon+Higgs plane shows good discrimination for =0.1π. For the tbhμ and tth processes, the operator proportional to (pμ×ph)· pt is sensitive to the sign of CP phase . From these observables, we construct asymmetry parameters that show good distinction between different values and signs of the CP violating angle.

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