Analog hadronic calorimeter for a future linear collider / dissertation by: Amine Elkhalii. Wuppertal, 21th July 2020
Inhalt
- Abstract
- Introduction
- Particle Physics
- The International Linear Collider
- Calorimetry and Particle Flow Concepts
- Particle Interaction with Matter
- Electromagnetic Interactions
- Heavy Charged Particles Interactions
- Hadronic Interactions
- Invisible and Escaped Energies
- Particle Shower Simulation
- Calorimeters
- Particle flow Approch
- CALICE Detector Concepts
- AHCAL Technological Prototype
- Measurement of the energy deposition in the AHCAL
- The AHCAL Technological Prototype
- Layout of the AHCAL Technological Prototype
- Readout Chips: SPIROC2E
- Data Acquisition Interface
- Power Pulsing Mode
- Calibration of the AHCAL
- Test of the SPIROC2E ASICs
- Test-board Design
- Charge Injection
- Setup of Chip Testing
- Procedure for the SPIROC2E Chip Testing
- Results of Chip Testing
- Testbeam Measurement with Electrons
- Beamline Setup of the H2 at SPS, CERN
- Testbeam Campaign at CERN: June 2018
- Data Taking
- Event Selection
- Detector Calibration
- Simulation
- Analysis of electron data
- Acknowledgements
- Appendix
- Beam profile for all electron data runs used for this analysis
- Reconstructed Energy
- Hit energy Spectra
- Shower profiles
- Bibliography