CP violation angles from Hττ decays at FCC-ee

Abstract

Measuring charge-parity (CP) violation in Higgs-fermion interactions is a key target of future precision Higgs programs. The decay Hττ is particularly sensitive to the CP structure of the Higgs Yukawa coupling via τ spin correlation, while the clean environment of e+e- collisions at the Future Circular Collider (FCC) enables accurate reconstruction of CP-sensitive observables. In this letter, we study the sensitivity of FCC-ee to the Higgs CP state using Hττ events produced in associated ZH production at s=240 GeV. In the anomalous-coupling parametrization, we project a precision of φττ= 2.5 at 68 % CL, with the dominant contribution arising from one-prong hadronic τ decays. We further interpret the analysis in the Effective Field Theory framework, deriving expected limits on the CP-odd operators, and compare them with electron and magnetic dipole moment measurements and the anomalous-coupling approach.