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Title: Top pair production cross sections and differential cross sections in the semi-leptonic channel using the CMS detector at √s = 7 and 8 TeV
Authors: Symonds, Philip
Advisors: Khan, A
Cole, J
Keywords: Cross section;7/8 TeV;Differential cross section;Ecal;Test beam
Issue Date: 2015
Abstract: The top quark has been extensively studied since the Large Hadron Collider (LHC) began operating in 2010. The excellent performance of both the LHC and the Compact Muon Solenoid (CMS) detector has enabled complex analyses of many properties of the top quark. In this thesis inclusive and differential top pair (t t) production cross sections have been measured. Inclusive t t cross sections of 145.6 8.2 (stat.) +38:1 􀀀28:3 (syst.) pb and 237.4 1.9 (stat.) +20:4 􀀀16:9 (syst.) pb were measured at 7 TeV and 8 TeV center-ofmass collision energies using luminosities of 1 fb􀀀1and 19.7 fb􀀀1, respectively. These measurements were performed in the semi-leptonic channel by means of a maximum likelihood t of the lepton's pseudorapidity. The work in this thesis focuses specifically on the muon-plus-jets channel. The methods used for measuring the inclusive cross sections were built upon to measure differential cross sections with respect to event level observables. These observables include the missing transverse energy (Emiss T ) as well as some other kinematic distributions involving the jets, lepton and Emiss T in the decay. These results are unfolded to remove detector and selection effects and have uncertainties in the range of 3% to 15%. A low uncertainty is achieved by normalising the differential cross section using the total cross section. This leads to cancellations of some uncertainties. The results were compared with different Monte Carlo generators and with different input parameters. No significant deviations from predictions of the Standard Model were observed. This thesis also contains test beam results on CMS ECAL Endcap Lead Tungstate (PbWO4) crystals. These crystals had been damaged using various doses of proton irradiation. The damage for some crystals is expected to be roughly equivalent to 300 fb-1 of integrated luminosity at √s = 14 TeV. The energy resolution for these crystals was seen to reduce by close to a factor of 20.
Description: This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University London
Appears in Collections:Electronic and Computer Engineering
Dept of Electronic and Computer Engineering Theses

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