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Geometry and Optics of the Electrostatic ELENA Transfer Lines

The future ELENA ring at CERN will decelerate the AD anti-proton beam further from 5.3 MeV to 100 keV kinetic energy, to increase the efficiency of anti-proton trapping. At present there are four experiments in the AD hall which will be complemented with the installation of ELENA by additional three...

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Detalles Bibliográficos
Autores principales: Vanbavinckhove, G, Baartman, R, Barna, D, Bartmann, W, Butin, F, Choisnet, O, Yamada, H
Lenguaje:eng
Publicado: 2013
Materias:
Acceso en línea:http://cds.cern.ch/record/1577414
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author Vanbavinckhove, G
Baartman, R
Barna, D
Bartmann, W
Butin, F
Choisnet, O
Yamada, H
author_facet Vanbavinckhove, G
Baartman, R
Barna, D
Bartmann, W
Butin, F
Choisnet, O
Yamada, H
author_sort Vanbavinckhove, G
collection CERN
description The future ELENA ring at CERN will decelerate the AD anti-proton beam further from 5.3 MeV to 100 keV kinetic energy, to increase the efficiency of anti-proton trapping. At present there are four experiments in the AD hall which will be complemented with the installation of ELENA by additional three experiments and an additional source for commissioning. This paper describes the optimization of the transfer line geometry, ring rotation and source position. The optics of the transfer lines and error studies to define field and alignment tolerances are shown, and the optics particularities of electrostatic elements and their optimization highlighted.
id cern-1577414
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2013
record_format invenio
spelling cern-15774142022-08-10T20:11:48Zhttp://cds.cern.ch/record/1577414engVanbavinckhove, GBaartman, RBarna, DBartmann, WButin, FChoisnet, OYamada, HGeometry and Optics of the Electrostatic ELENA Transfer LinesAccelerators and Storage RingsThe future ELENA ring at CERN will decelerate the AD anti-proton beam further from 5.3 MeV to 100 keV kinetic energy, to increase the efficiency of anti-proton trapping. At present there are four experiments in the AD hall which will be complemented with the installation of ELENA by additional three experiments and an additional source for commissioning. This paper describes the optimization of the transfer line geometry, ring rotation and source position. The optics of the transfer lines and error studies to define field and alignment tolerances are shown, and the optics particularities of electrostatic elements and their optimization highlighted.CERN-ACC-2013-0107oai:cds.cern.ch:15774142013-07-31
spellingShingle Accelerators and Storage Rings
Vanbavinckhove, G
Baartman, R
Barna, D
Bartmann, W
Butin, F
Choisnet, O
Yamada, H
Geometry and Optics of the Electrostatic ELENA Transfer Lines
title Geometry and Optics of the Electrostatic ELENA Transfer Lines
title_full Geometry and Optics of the Electrostatic ELENA Transfer Lines
title_fullStr Geometry and Optics of the Electrostatic ELENA Transfer Lines
title_full_unstemmed Geometry and Optics of the Electrostatic ELENA Transfer Lines
title_short Geometry and Optics of the Electrostatic ELENA Transfer Lines
title_sort geometry and optics of the electrostatic elena transfer lines
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/1577414
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AT baartmanr geometryandopticsoftheelectrostaticelenatransferlines
AT barnad geometryandopticsoftheelectrostaticelenatransferlines
AT bartmannw geometryandopticsoftheelectrostaticelenatransferlines
AT butinf geometryandopticsoftheelectrostaticelenatransferlines
AT choisneto geometryandopticsoftheelectrostaticelenatransferlines
AT yamadah geometryandopticsoftheelectrostaticelenatransferlines