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Power Deposition due to Muon Decay Losses in a Neutrino Factory

The power in the charged muon decay products, deposited per unit distance, depends on the muon energy only through the relativistic factor beta. For a typical neutrino factory it is about one Watt/m, multiplied by the number of passes through a particular component. The power is highest in the muon...

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Autor principal: Keil, Eberhard
Lenguaje:eng
Publicado: 2000
Materias:
Acceso en línea:http://cds.cern.ch/record/481063
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author Keil, Eberhard
author_facet Keil, Eberhard
author_sort Keil, Eberhard
collection CERN
description The power in the charged muon decay products, deposited per unit distance, depends on the muon energy only through the relativistic factor beta. For a typical neutrino factory it is about one Watt/m, multiplied by the number of passes through a particular component. The power is highest in the muon decay ring, where the muon lifetime cooresponds to about 150 turns. The electrons or positrons from muon decay in the long straight section may remain inside the vacuum chamber, until they are lost at the beginning of the arcs, because of their large energy errors, that are enhanced by synchrotron radiation losses. The power losses along the straight section and the arcs are studied by computer simulation, and the results are presented. About two thirds of the power ends up in the straight section, the remainder in the matching section and in the first half of the dispersion suppressor.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2000
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spelling cern-4810632023-06-23T09:22:58Zhttp://cds.cern.ch/record/481063engKeil, EberhardPower Deposition due to Muon Decay Losses in a Neutrino FactoryAccelerators and Storage RingsThe power in the charged muon decay products, deposited per unit distance, depends on the muon energy only through the relativistic factor beta. For a typical neutrino factory it is about one Watt/m, multiplied by the number of passes through a particular component. The power is highest in the muon decay ring, where the muon lifetime cooresponds to about 150 turns. The electrons or positrons from muon decay in the long straight section may remain inside the vacuum chamber, until they are lost at the beginning of the arcs, because of their large energy errors, that are enhanced by synchrotron radiation losses. The power losses along the straight section and the arcs are studied by computer simulation, and the results are presented. About two thirds of the power ends up in the straight section, the remainder in the matching section and in the first half of the dispersion suppressor.CERN-SL-2000-076-APCERN-NEUTRINO-FACTORY-NOTE-54CERN-NUFACT-NOTE-54oai:cds.cern.ch:4810632000-11-23
spellingShingle Accelerators and Storage Rings
Keil, Eberhard
Power Deposition due to Muon Decay Losses in a Neutrino Factory
title Power Deposition due to Muon Decay Losses in a Neutrino Factory
title_full Power Deposition due to Muon Decay Losses in a Neutrino Factory
title_fullStr Power Deposition due to Muon Decay Losses in a Neutrino Factory
title_full_unstemmed Power Deposition due to Muon Decay Losses in a Neutrino Factory
title_short Power Deposition due to Muon Decay Losses in a Neutrino Factory
title_sort power deposition due to muon decay losses in a neutrino factory
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/481063
work_keys_str_mv AT keileberhard powerdepositionduetomuondecaylossesinaneutrinofactory