To evaluate the novel calorimetric technique proposed in the ENUBET project, we analyze the data of the test beam performed on July, 2016 at CERN-PS on a small prototype of the final calorimeter. These light collection maps are compared with data from another test executed by the University of Como, making use of cosmic rays. Finally, with a Monte Carlo simulation we try to create a model that can describe all mechanisms of light reflection and diffusion that happen inside a single scintillator tile. In this way we establish if we have plenty control of the calorimeter when exposed to the beams.
Il progetto ENUBET: una nuova tecnica per aumentare la precisione dei fasci di neutrini elettronici
Zoccoletti, Mattia
2017/2018
Abstract
To evaluate the novel calorimetric technique proposed in the ENUBET project, we analyze the data of the test beam performed on July, 2016 at CERN-PS on a small prototype of the final calorimeter. These light collection maps are compared with data from another test executed by the University of Como, making use of cosmic rays. Finally, with a Monte Carlo simulation we try to create a model that can describe all mechanisms of light reflection and diffusion that happen inside a single scintillator tile. In this way we establish if we have plenty control of the calorimeter when exposed to the beams.File | Dimensione | Formato | |
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https://hdl.handle.net/20.500.12608/26263