In this paper, we investigate the decay of the Higgs boson to J/ψ(γ ) plus a photon based on NRQCD factorization. For the direct process, we calculate the decay width up to QCD NLO. We find that the decay width fo...In this paper, we investigate the decay of the Higgs boson to J/ψ(γ ) plus a photon based on NRQCD factorization. For the direct process, we calculate the decay width up to QCD NLO. We find that the decay width for process H → J/ψ(γ ) +γ direct production at the LO is significantly reduced by the NLO QCD corrections. For the indirect process, we calculate the H→γ*γ, with virtual 7 substantially decaying to J/ψ(γ), including all the SM Feynman diagrams. The decay width of indirect production is much larger than the direct decay width. Since it is very clean in experiment, the H →J/ψ( γ) +γ decay could be observable at a 14 TeV LHC and it also offers a new way to probe the Yukawa coupling and New Physics at the LHC.展开更多
基金Supported by National Natural Science Foundation of China(11305001,11105083,11205003)
文摘In this paper, we investigate the decay of the Higgs boson to J/ψ(γ ) plus a photon based on NRQCD factorization. For the direct process, we calculate the decay width up to QCD NLO. We find that the decay width for process H → J/ψ(γ ) +γ direct production at the LO is significantly reduced by the NLO QCD corrections. For the indirect process, we calculate the H→γ*γ, with virtual 7 substantially decaying to J/ψ(γ), including all the SM Feynman diagrams. The decay width of indirect production is much larger than the direct decay width. Since it is very clean in experiment, the H →J/ψ( γ) +γ decay could be observable at a 14 TeV LHC and it also offers a new way to probe the Yukawa coupling and New Physics at the LHC.
