Measurement of t-channel single top-quark production in proton-proton collisions at a center-of-mass energy of 13 TeV using the full ATLAS Run 2 datas [...] / Joshua Reidelstürz. Wuppertal, February 2024
Inhalt
- Contents
- Theory
- Quantum field theory
- Fields and Local Gauge Symmetries
- Beyond the Standard Model
- Predictions with the Standard Model
- Chiral Symmetry Breaking
- Measurements of the Standard Model
- Factorization of Hadronic Cross-Sections
- Event Generation
- Parton Shower Simulation
- Hadronization Models
- The Underlying Event and Pileup
- Decays and Detector Simulation
- Top Quark
- Top Quark Decay
- Single Top-Quark Production
- W+jets Background Process
- Other Background Processes
- The Large Hadron Collider
- ATLAS
- Coordinate System
- Inner Tracking Detector
- Calorimeter System
- Muon Spectrometer
- Trigger System
- Luminosity
- LHC Run 2
- Monte Carlo Samples
- Multijet Background
- Event Reconstruction
- Particle tracks
- Topological clusters
- Jet algorithm
- Jet Energy Scale
- Electron Reconstruction
- Muon reconstruction
- Flavor-tagging of Jets
- Missing transverse momentum
- Overlap Removal
- Event Selection
- Neural Network
- Uncertainties
- Jet Uncertainties
- Flavor Tagging Uncertainties
- Missing Transverse Momentum
- Lepton Uncertainties
- Normalization Uncertainties
- Modeling Uncertainties
- Binned Maximum Likelihood Fit
- Signal Parameter Parameterization
- Fitted Distributions
- Template smoothing
- Symmetrization
- Templates for Systematic Uncertainties
- Binning
- Validation of the Fit Procedure using Asimov Data
- Results
- Conclusion
- Neural network input variable distributions
- Bibliography
- Acknowledgments