Factorization at Next-to-Leading Power and Endpoint Divergences in gg h Production

Abstract

We derive a factorization theorem for the Higgs-boson production amplitude in gluon-gluon fusion induced by a light-quark loop, working at next-to-leading power in soft-collinear effective theory. The factorization is structurally similar to that obtained for the hγγ decay amplitude induced by a light-quark loop, but additional complications arise because of external color charges. We show how the refactorization-based subtraction scheme developed in previous work leads to a factorization theorem free of endpoint divergences. We use renormalization-group techniques to predict the logarithmically enhanced terms in the three-loop gg h form factor of order αs3k(-Mh2/mb2) with k=6,5,4,3. We also resum the first three towers of leading logarithms, αsn2n-k(-Mh2/mb2) with k=0,1,2, to all orders of perturbation theory.

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