The Thrust Distribution at NNLO+NNLL in Higgs Decays to Quarks and Gluons

Abstract

We present a calculation of the thrust distribution in Higgs decays to quarks and gluons, H bb, H cc, and H gg, including the resummation of large logarithmic corrections that arise in the two-particle limit at next-to-next-to-leading logarithmic (NNLL) accuracy, and match it to fixed-order results for three-particle decays at next-to-next-to-leading order (NNLO) in the strong coupling. The resummation is performed analytically within the ARES framework and combined with the fixed-order results using the logR matching technique. The fixed-order calculation is carried out numerically with the NNLOJET parton-level event generator, using the antenna subtraction method. We perform detailed cross-validation in the two-particle region, demonstrating that the expansion of the NNLL resummed result correctly reproduces the logarithmic structure of the fixed-order calculation to O(αs3), up to a predictable N3LL term at O(αs3L). In addition to providing the first NNLO+NNLL accurate predictions for the thrust distribution in Higgs decays to quarks and gluons, we analytically extract the O(αs2) hard-virtual correction c2 and the αs3L term G31 in both the H qq (q=b,c) and H gg decay channels.

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