J/ associated production with a bottom quark pair from the Higgs boson decay in next-to-leading order QCD

Abstract

In this work, we investigate the next-to-leading order (NLO) QCD correction to J/ associated production with a bottom quark pair from the Higgs boson decay within the nonrelativistic QCD framework. From numerical results, we find that the decay width of process H → b+ J/+b at leading order (LO) mainly comes from the contribution of the Fock state 3S(8)1, and the NLO QCD corrections significantly enhance the decay width at LO accuracy by about 2 times. At NLO accuracy, the Fock states 3S(8)1 and 3P(8)J channels give the main contribution, accounting for about 68\% and 29\% of the total decay width of J/ associated production with a bottom quark pair at NLO accuracy from the Higgs boson decay, respectively. Considering the dominant contribution of color octet (CO) channels at NLO accuracy, the inclusive decay process H b+J/+ b + X has the potential to be found in future colliders with high energy/luminosity. The study of J/ associated production with a bottom quark pair from the Higgs boson decay is not only useful to study the mechanism of color-octet, but also to assist in the investigation of the coupling for the Higgs boson with the bottom quark.