Next-to-leading-order electroweak correction to H Z0γ
Abstract
Inspired by the recent observation of the Higgs boson radiative decay into Z0 by ATLAS and CMS Collaborations, we investigate the next-to-leading-order (NLO) electroweak correction to this rare decay process in Standard Model (SM). Implementing the on-shell renormalization scheme, we find that the magnitude of the NLO electroweak correction may reach 7\% of the leading order (LO) prediction, much more significant than that of the NLO QCD correction, which is merely about 0.3\%. After incorporating the O(α) correction, the predicted partial width from various α schemes tend to converge to each other. Including both NLO electroweak and QCD corrections, the SM prediction for the branching fraction shifts from the LO value of (1.40-1.71)× 10-3 to (1.55 0.06)× 10-3, considerably lower than the measured value B exp[H Z0γ]=(3.4 1.1)× 10-3. Resolving this alarming discrepancy clearly calls for further theoretical investigations, and, more importantly, experimental efforts from HL-LHC and the prospective Higgs factories such as CEPC and FCC-ee.
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