Testing the Higgs boson gluonic couplings at LHC

Abstract

We study Higgs + jet production at hadron colliders in order to look for new physics residual effects possibly described by the dim=6 operators GG and GG which induce anomalous Hgg and Hggg couplings. Two ways for constraining these operators at LHC may be ~useful. The first is based on the total Higgs boson production rate induced by gluon-gluon fusion, in which the main cause of limitations are due to theoretical uncertainties leading to sensitivities of |dG| 3.× 10-4 and |dG| 1.4× 10-3 for the corresponding anomalous couplings, in the mass range 100 GeV 2~00 GeV. These results imply sensitivity to new physics scales of 51 and 24 TeV respectively. The second way investigated here concerns the shape of the Higgs transverse momentum; for which the theoretical uncertainties are less severe and the limitations are mainly induced by statistics. A simple analysis, based on the ratio of the number of events at large and low pT at LHC, leads to similar sensitivities, if only the H γ γ decay mode is used. But the sensitivities can now be improved by a factor 2 to 10, depending on the Higgs mass, if the Higgs decay modes to WW*, ZZ*, WW, ZZ are also used.

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