Enhancing the sensitivity to FCNC top decays t cH and t cS in the boosted regime at CLIC

Abstract

The top quark, having the largest Yukawa coupling to the Higgs sector, provides a unique window into electroweak symmetry breaking and possible new physics beyond the Standard Model. Searches for rare top-quark processes are thus powerful probes of new physics. In this work, we investigate the flavor-changing neutral-current (FCNC) top-quark decays t cH and t cS, where S denotes a light scalar, at the Compact Linear Collider (CLIC) with a center-of-mass energy of s=1.5~TeV. Our analysis focuses on a kinematic regime distinct from most previous studies, in which the top quarks are typically highly boosted. To enhance signal discrimination in the boosted regime, we construct multi-channel jet images and employ a convolutional neural network (CNN) classifier to capture jet-substructure patterns relevant to the FCNC signals. Assuming an integrated luminosity of 4~ab-1, we obtain the expected 95\% C.L. upper limit BR(t cH)× BR(H b b)<5.27×10-5. For the exotic scalar singlet, expected 95\% C.L. upper limits between 3.25×10-5 and 5.26×10-5 are obtained for BR(t cS)× BR(S b b), for scalar masses between 30 and 80~GeV.

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