H → bbj at Next-to-Next-to-Leading Order Accuracy

Abstract

We present the calculation of the decay H → bbj at next-to-next-to-leading order (NNLO) accuracy. We consider contributions in which the Higgs boson couples directly to bottom quarks, i.e. our predictions are accurate to order O(αs3 yb2) . We calculate the various components needed to construct the NNLO contribution, including an independent calculation of the two-loop amplitudes. We compare our results for the two-loop amplitudes to an existing calculation finding agreement. We present multiple checks on our two-loop expression using the known infrared factorization properties as the emitted gluon becomes soft or collinear. We use our results to construct a Monte Carlo implementation of H → bbj and present jet rates and differential distributions in the Higgs rest frame using the Durham jet algorithm.