The Search for a Heavy Higgs Boson in the H->ZZ Decay Channels with the ATLAS Detector at the LHC

The main subject of this thesis is the search for an additional heavy Higgs boson through its decay into a pair of Z bosons (H → ZZ(*)) using data recorded with the ATLAS experiment installed at the Large Hadron Collider (LHC). Four distinct analyses are presented, which are distinguished by the decay mode of the Z boson into either a pair of charged leptons (electrons or muons), into a pair of neutrinos or into a pair of quarks, denoted according to final-state, i.e. as 4l, 2l2ν, 2l2q and 2ν2q. The study is performed using 20.3 fb⁻¹ of proton-proton collision data recorded during the first phase of LHC operation (Run-1) at centre-of-mass energy of √s = 8 TeV. A search strategy is employed which segments the data according to the Higgs boson production mechanism, assuming that these are the same as in the Standard Model (SM). Furthermore, the signal is modelled with a width that is small compared to the experimental mass resolution. The Higgs boson mass range considered extends up to 1 TeV for all four decay modes and down to as low as 140 GeV, depending on the decay mode. No significant excess of events over the Standard Model prediction is found. A simultaneous fit to the four decay modes yields upper limits on the heavy Higgs boson production cross-section times H → ZZ branching ratio ranging from 359 fb at mH = 200 GeV to 11 fb at mH = 1 TeV for the gluon-fusion production mechanism, and from 214 fb at mH = 200 GeV to 13 fb at mH = 1 TeV for the vector-boson fusion production mechanism. The results from these four searches are also interpreted in the context of models beyond the SM, namely the Type-1 and Type-2 2 Higgs Doublet Model. The heavy Higgs boson search is also performed with the H → ZZ(*) → 4l decay mode alone using 3.2 fb⁻¹ of proton-proton collision data recorded during the second phase of LHC operation (Run-2) at an increased centre-of- mass energy of √s = 13 TeV. No significant excess of events over the Standard Model prediction is found. Upper limits are set on the heavy Higgs boson production cross-section times H → ZZ(*) → 4l branching ratio of 4.5 fb at mH = 200 GeV and 1 fb at mH = 1 TeV. Lastly, a project of a more technical character is presented. In this study, the scintillation detectors employed by ATLAS for triggering with minimal bias in the forward region, the Minimum Bias Trigger Scintillators (MBTS), are characterised. Due to material degradation caused by radiation damage in the early phases of LHC operation, the MBTS had to be replaced during the LHC shutdown taking place in 2014. Before installation in ATLAS, these detectors were characterised in appropriate laboratory facilities using cosmic radiation.