From detectors to data: Thermal characterization of CMS outer tracker modules and measurement of the top quark mass using tt+ jet events / vorgelegt von Ana Ventura Barroso aus Hamburg. Hamburg, 2025
Inhalt
- Introduction
- Theoretical framework
- Burn-in
- The Standard Model of particle physics
- Burn-in setup components
- Hadron collider physics
- Noise measurement during Burn-in test
- The top quark
- tsiunitxunit-deprecatedࡡ爠barbart production in association with one jet
- The LHC and the CMS experiment
- Analysis
- The Large Hadron Collider
- List of triggers used
- The Compact Muon Solenoid
- Triggers Scale Factors
- Physics object reconstruction
- Cross section per year
- CMS Outer Tracker Upgrade for HL-LHC
- Silicon Tracking Detectors
- The High Luminosity LHC Upgrade
- Outer Tracker Phase-2 Upgrade
- PS Module
- Outer Tracker layout and mechanics
- Burn-in Tests of CMS Outer Tracker Modules
- Burn-in Test
- Burn-in system
- Setup commissioning
- Characterization of PS Modules Using the Burn-in Setup
- Burn-in Test of a PS module
- Conclusion and prospects
- Integration Tests of CMS Outer Tracker Modules
- Tracker alignment in CMS: interplay with pixel local reconstruction
- tsiunitxunit-deprecatedࡡ爠barbart+jet cross section and top quark pole mass
- Analysis strategy
- Data set, simualtion samples and event selection
- Data-simulation comparison
- Reconstruction of the top quark kinematics
- Event classification and categorization
- Unfolding and cross section measurement
- Systematic uncertainties
- Results
- Summary