Machine learning the Higgs boson-top quark CP phase
Abstract
We explore the direct Higgs-top CP measurement via the pp tth channel at the high-luminosity LHC. We show that a combination of machine learning techniques and efficient kinematic reconstruction methods can boost new physics sensitivity, effectively probing the complex tth multi-particle phase space. Special attention is devoted to top quark polarization observables, uplifting the analysis from a raw rate to a polarization study. Through a combination of hadronic, semi-leptonic, and di-leptonic top pair final states in association with h γγ, we obtain that the HL-LHC can probe the Higgs-top coupling modifier and CP-phase, respectively, up to |t| 8\% and |α| 13 at 68\%~CL.
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