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An improved simulation routine for modelling coherent high-energy proton interactions with bent crystals

The planes in crystalline solids can constrain the directions that charged particles take as they pass through. Physicists can use this "channelling" property of crystals to steer particle beams. In a bent crystal, for example, channelled particles follow the bend and can change their dire...

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Autor principal: Forcher, Francesco
Lenguaje:eng
Publicado: 2018
Materias:
Acceso en línea:http://cds.cern.ch/record/2314775
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author Forcher, Francesco
author_facet Forcher, Francesco
author_sort Forcher, Francesco
collection CERN
description The planes in crystalline solids can constrain the directions that charged particles take as they pass through. Physicists can use this "channelling" property of crystals to steer particle beams. In a bent crystal, for example, channelled particles follow the bend and can change their direction. Experiments are being carried out to study in detail this phenomenon. The UA9 collaboration is using high energy protons and heavy ions beams from the SPS accelerator at CERN to verify the possibility of using bent crystals as primary collimators in high energy hadron colliders like the LHC. Simulations have been developed to model the coherent interaction with crystal planes. The goal of the thesis is indeed to analyze the data and develop an improved simulation routine to better describe the data’s subtleties, in particular the transition between the volume reflection and amorphous modes of beam interaction with the crystal.
id cern-2314775
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2018
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spelling cern-23147752019-09-30T06:29:59Zhttp://cds.cern.ch/record/2314775engForcher, FrancescoAn improved simulation routine for modelling coherent high-energy proton interactions with bent crystalsAccelerators and Storage RingsThe planes in crystalline solids can constrain the directions that charged particles take as they pass through. Physicists can use this "channelling" property of crystals to steer particle beams. In a bent crystal, for example, channelled particles follow the bend and can change their direction. Experiments are being carried out to study in detail this phenomenon. The UA9 collaboration is using high energy protons and heavy ions beams from the SPS accelerator at CERN to verify the possibility of using bent crystals as primary collimators in high energy hadron colliders like the LHC. Simulations have been developed to model the coherent interaction with crystal planes. The goal of the thesis is indeed to analyze the data and develop an improved simulation routine to better describe the data’s subtleties, in particular the transition between the volume reflection and amorphous modes of beam interaction with the crystal.CERN-THESIS-2017-358oai:cds.cern.ch:23147752018-04-24T08:06:34Z
spellingShingle Accelerators and Storage Rings
Forcher, Francesco
An improved simulation routine for modelling coherent high-energy proton interactions with bent crystals
title An improved simulation routine for modelling coherent high-energy proton interactions with bent crystals
title_full An improved simulation routine for modelling coherent high-energy proton interactions with bent crystals
title_fullStr An improved simulation routine for modelling coherent high-energy proton interactions with bent crystals
title_full_unstemmed An improved simulation routine for modelling coherent high-energy proton interactions with bent crystals
title_short An improved simulation routine for modelling coherent high-energy proton interactions with bent crystals
title_sort improved simulation routine for modelling coherent high-energy proton interactions with bent crystals
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/2314775
work_keys_str_mv AT forcherfrancesco animprovedsimulationroutineformodellingcoherenthighenergyprotoninteractionswithbentcrystals
AT forcherfrancesco improvedsimulationroutineformodellingcoherenthighenergyprotoninteractionswithbentcrystals