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Electron and muon reconstruction in single lepton tT events ( Analysis Note 2005-024 ) (short!) update of previous session new definition of some observables less sensititive to Pile-Up effects updated all results in discussion with referees ... focus on main updated items Jorgen D’Hondt (Vrije Universiteit Brussel) on behalf of also S.Lowette and J.Heyninck PRS General Meeting, CERN, 6th of December 2005 Referees : Anne-Sylvie Giolo-Nicollerat, Martin Grünewald
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)2 Illustration Select correct lepton Used 5.41fb -1 of ttbar events
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)3 Classifying the reconstructed lepton non-W-like Classify the reconstructed objects identified as leptons in two categories via the Monte Carlo truth information. Determine for each lepton candidate in the final state. F distribution of the R of all reconstructed lepton candidates (e/ ) in the final state F robustness against the used metric was checked: ( ) versus ( ) R=0.2 → where one distribution goes up on top of the background non-W-like W-like 0.2 Takes into account double counted reconstructed electron candidates
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)4 Differentiating the two classes sensitive observables
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)5 Observables for the W→ decay E iso iso log(p T iso ) log(p T ) SZSZ Distribution on the left Likelihood Ratio S/(S+B) on the right 2.0 GeV (PU)
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)6 Observables for the W→e e decay E iso iso log(p T iso ) log(p T ) SZSZ Distribution on the left Likelihood Ratio S/(S+B) on the right Same tendencies for electrons and muons, as expected 3.6 GeV (PU)
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)7 Combined Likelihood Ratio Variable linear scale logarithmic scale muons electrons Second bump has disappeared due to new definitions Correct lepton is the one with the highest Combined LR value
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)8 Comparing with other methods muons electrons cut on the LR-value and scan this LR-cut Event selection efficiency of the Likelihood Ratio method much less sensitive to Pile-Up effects, which can reach 4% when using a sequential cut based approach.
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)9 Pile-Up influence on observables about 0.5GeV effect no effect
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)10 Energy deposits in the calorimeter Jet clustering algorithms usually start from the collection of calorimeter deposits, but also the lepton creates these deposits and can radiate photons. These calorimeter deposits should be removed before performing the jet clustering algorithm. It can be seen that there is an asymmetry between the deposits in and , due to the magnetic field along the z-direction. The deposits around the chosen lepton within an asymmetric cone of opening 0.1rad in and 0.05rad in should be removed. muonelectron Plots have changed due to the propagation of the lepton to the calorimeter surface Pile-Up included
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6th of December 2005Jorgen D'Hondt (Vrije Universiteit Brussel)11 Outlook in use cases Update of previous presented studies (PRS meeting November) Variable created which differentiates W-like and non-W-like leptons ð also differentiates between fake electrons or muons ð several sensitive observables are combined with a Likelihood Ratio method ð it was shown that one can increase the event selection efficiency (wrt.HLT) ð the definition of some variables were updated (= simplified) Comments from referees were implemented and discussed thoroughly in the updating process P thanks to both Anne-Sylvie and Martin for their constructive and valuable comments
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