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000220092 1001_ $$0P:(DE-H253)PIP1020267$$aSchuetz, Anne$$b0$$eCorresponding Author$$gfemale
000220092 245__ $$aSimulation of Particle Fluxes at the DESY-II Test Beam Facility$$f2014-02-24 - 2015-02-23
000220092 260__ $$bVerlag Deutsches Elektronen-Synchrotron$$c2015
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000220092 502__ $$aKarlsruher Institut für Technologie (KIT), Masterarbeit, 2015$$bMS$$cKarlsruher Institut für Technologie (KIT)$$d2015
000220092 520__ $$aIn the course of this Master's thesis "Simulation of Particle Fluxes at the DESY-II Test Beam Facility'' the test beam generation for the DESY test beam line was studied in detail and simulated with the simulation software SLIC. SLIC uses the Geant4 toolkit for realistic Monte Carlo simulations of particles passing through detector material.After discussing the physics processes relevant for the test beam generation and the principles of the beam generation itself, the software used is introduced together with a description of the functionality of the Geant4 Monte Carlo simulation. The simulation of the test beam line follows the sequence of the test beam generation. Therefore, it starts with the simulation of the beam bunch of the synchrotron accelerator DESY-II, and proceeds step by step with the single test beam line components. An additional benefit of this thesis is the provision of particle flux and trajectory maps, which make fluxes directly visible by following the particle tracks through the simulated beam line. These maps allow us to see each of the test beam line components, because flux rates and directions change rapidly at these points. They will also guide the decision for placements of future test beam line components and measurement equipment.In the end, the beam energy and its spread, and the beam rate of the final test beam in the test beam area were studied in the simulation, so that the results can be compared to the measured beam parameters. The test beam simulation of this Master's thesis will serve as a key input for future test beam line improvements.
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