Rapidity distribution of pseudo-scalar Higgs boson to NNLOA+ NNLL

Abstract

We present the differential predictions for the rapidity distribution of pseudo-scalar Higgs boson through gluon fusion at the LHC. These results are obtained taking into account the soft-virtual (SV) as well as the next-to-soft virtual (NSV) resummation effects to next-to-next-to-leading-logarithmic (NNLL) accuracy and matching them to the approximate fixed order next-to-next-to-leading-order (NNLOA) computation. We perform the resummation in two dimensional Mellin space using our recent formalism Ajjath:2020lwb by limiting ourselves to the contributions only from gluon-gluon (gg) initiated channels. The NNLOA rapidity distribution of pseudo-scalar Higgs is obtained by applying a ratio method on the NNLO rapidity distribution of the scalar Higgs boson. We also present the first analytical results of N3LO rapidity distribution of pseudo-scalar Higgs at SV+NSV accuracy. The phenomenological impacts of NNLOA+NNLL predictions for 13 TeV LHC are studied. We observe that, for mA =125(700) GeV, the SV+NSV resummation at NNLL level brings about 14.76\% (11.48\%) corrections to the NNLOA results at the central scale value of μR=μF=mA. Further, we find that the sensitivity to the renormalisation scale gets improved substantially by the inclusion of NSV resummed predictions at NNLL accuracy.