| The physics analyses presented in this dissertation use four-lepton(4l,l=e,?)final state to measure the Higgs boson to ZZ coupling,and the inclusive Z Z production lineshape with data collected by the ATLAS experiment in the proton-proton collisions of the Large Hadron Collider(LHC)at a center-of-mass energy of(?)=13 TeV.The first analysis presented is the Higgs boson production cross section measure-ment in reaction of H?ZZ*?4l.The 4l final state has the highest signal to background ratio compared to all other Higgs decay channels,thus it is ideal for pre-cision measurement of the Higgs properties.The analysis uses the full Run 2 dataset,corresponding to an integrated luminosity of 139fb-1.The Higgs boson production mode and kinematic variables are used to categorize the selected Higgs events both at fiducial and the reconstructed level under the latest Simplified Template Cross Section(STXS)framework to reduce the dependence on uncertainties of theoretical modeling.In each of the signal category in the Higgs mass window with enough statistics,multi-variate analysis is performed to further separate Higgs signal from different production modes and the Standard Model(SM)background.The output discriminant is used as the observable in the simultaneous fit to extract the Higgs boson production cross sec-tion.Furthermore,several new categories are optimized in the Higgs mass side-band region to constrain SM background from data.The inclusive cross section times branch-ing ratio over the SM prediction in the Higgs production rapidity range,|yH|<2.5,is measured to be(?.B)/(?·B)SM=1.01±0.09,which marks a very good agreement between data and the SM prediction.The second analysis presented is the lineshape measurement of invariant mass spec-trum of four-lepton system using data collected during 2015 and 2016,corresponding to an integrated luminosity of 36fb-1.The differential distribution of m4l and sev-eral two-dimensional distributions of m4l vs secondary variables,including a Matrix Element discriminant“MELA”for the off-shell Higgs extraction,are measured with optimized binning for proper migration and high purity.The unfolding method used in the measurement is optimized with pseudo-experiments to make a balance between statistical uncertainty and residual bias.The unfolding process is validated with the standard unfolding closure test.The differential cross sections of the measurement are consistent with SM calculations.The results are then interpreted and tested against dif-ferent 4(?)production models,including the quark pair and the gluon-gluon fusion initial states.The gg?ZZ*,gluon-originated signal strength is measured to be 1.32-0.45+0.45.This result is based on theoretical calculation of the gg?ZZ*production with the QCD next-to-leading order(NLO)correction,and it indicates higher order correction in calculation is necessary to understand the source of the 4(?)production mechanism.A 95%confidence level upper limit of 6.5 is set on the off-shell Higgs signal strength with the m4(?)-MELA distribution using the CLs statistical approach.The branching ratio of Z?4(?)is measured in a phase space of 80<m4(?)<100 GeV and m(?)>4 GeV as:BZ?4l=(4.70±0.32(stat.)±0.21(sys.)±0.03(theo.)±0.14(lumi))× 10-6.Finally,a 95%confidence level CLS exclusion contour is set on modified Higgs coupling parameters(c1,cg)in a Higgs effective field theory. |
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