Constraints on the Higgs-gluon effective coupling through h γγ decays at the LHC

Abstract

We present a detailed study of the pp hγγ process in the HPOprodMFV\UFO model framework, focusing on the Higgs-gluon effective coupling modifier, κg. We generate events for 26 parameter points corresponding to |κg| values ranging from 0.6 to 1.4 using MadGraph5\aMC@NLO simulations at 13 TeV with NNPDF3.1 parton distribution functions. These events are processed through Pythia8 for parton showering and hadronisation. This is followed by a fast detector simulation using Delphes with an ATLAS-like configuration and analysis with MadAnalysis5. We verify the expected quadratic scaling, σ(pp h γγ) κg2, with high precision, confirming the consistency of our simulation framework. The Standard Model cross section after the application of selection cuts is found to be σSM = 0.04067 0.00008 pb. By comparing our results with the ATLAS Run 2 likelihood profile from HEPData (HEPData:ins1851456), we derive constraints on |κg|: align* |κg| &∈ [0.80,\, 1.20] at 68\% CL, |κg| &∈ [0.70,\, 1.30] at 95\% CL,. align* These results are in excellent agreement with the official ATLAS and CMS combinations. Our analysis validates the HPOprodMFV\UFO model implementation and demonstrates the effectiveness of simplified simulations in exploring Higgs couplings in the diphoton channel.