Proton induced radiation damage studies on plastic scintillators for the Tile calorimeter of the atlas detector
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Research aims and objectives The Primary aim of this study is to obtain a comprehensive understanding of how radiation damage from proton irradiation occurs in current “radiation hard” plastic scintillators which are typically employed in present d ay high energy detectors. The research aims to understand how this radiation damage affects the scintillator on a structural level and how this in turn affects the optical properties of the scintillator. The study further aims to perform a comparative ass essment of the radiation hardness between several plastic scintillators available to the study which are typically employed within high energy detection systems today. This comparative analysis will then aid in the decision making of which scintillator gra de will be 4 used to replace the current Gap scintillators of the Tile Calorimeter in the ATLAS detector during the Phase 2 upgrade in 2018. The information gathered in this study will also aid in improving the future of the plastic scintillator industry. If plastic scintillator design can be improved to accommodate for these damage mechanisms, future plastics could exhibit more resilience against radiation as will be required for future high energy collider and detector systems. In order to realise these aims, the following objectives have been set: (1) Study and analyse the change in light transmission as a function of proton irradiation dose in each sample type. (2) Identify the loss to light yield as a function of damage by studying the response of the scintillators to a radioactive Sr 90 source. (3) Study the effect of damage to the fluorescence capability of the scintillators upon UV laser excitation. (4) Identify the change to bonding structure in each sample as a function of proton dose exposure using Raman spectroscopy (A technique based on the Raman Effect, described in section 4.2.2). (5) Study the damage recovery to both the structural and optical properties of the scintillators. (6) Perform a comparative of the radiation hardness between the different scintillators under study. Yüklə 8,51 Mb. Dostları ilə paylaş:
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