Mixed Electroweak-QCD Corrections to H γγ
Abstract
We present for the first time the complete three-loop mixed electroweak-QCD (O(ααs)) corrections for the decay channel H γγ, by implementing three different on-shell α schemes in computing the electroweak correction. Our studies indicate that the O(αs) correction amounts to approximately 1.7\% of the leading-order prediction for the diphoton width, while the O(α) correction varies from -4.8\% to 1.4\% depending on the specific α scheme. The three-loop mixed electroweak-QCD correction may reach 0.6\%, 0.5\%, and 0.2\% of the LO diphoton width in α(0), α(MZ), and Gμ schemes, respectively, which is much more significant than the less-than-0.1\% contribution from the three-loop QCD correction. It is also worth noting that the inclusion of the O(ααs) correction significantly reduces the scheme dependence of the partial width from 0.6 keV at leading order down to 0.03 keV. The state-of-the-art Standard Model predictions are [H γγ] = 9.389 9.420 keV, providing a valuable theoretical benchmark for future Higgs factory collider program.
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