Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings

Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings

To achieve high luminosity at the collision point of the Compact Linear Collider (CLIC), the normalized horizontal and vertical emittances of the electron and positron beams must be reduced to 500 and 4 nm before the beams enter the 1.5 TeV linear accelerators. An effective way to accomplish ultralo...

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Main Authors: Daniel Schoerling, Fanouria Antoniou, Axel Bernhard, Alexey Bragin, Mikko Karppinen, Remo Maccaferri, Nikolay Mezentsev, Yannis Papaphilippou, Peter Peiffer, Robert Rossmanith, Giovanni Rumolo, Stephan Russenschuck, Pavel Vobly, Konstantin Zolotarev
Format: Article
Language:English
Published: American Physical Society 2012-04-01
Series:Physical Review Special Topics. Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevSTAB.15.042401
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spelling doaj-cbb07d70ae434096afa5c88c744e7cc12020-11-25T01:39:52ZengAmerican Physical SocietyPhysical Review Special Topics. Accelerators and Beams1098-44022012-04-0115404240110.1103/PhysRevSTAB.15.042401Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping ringsDaniel SchoerlingFanouria AntoniouAxel BernhardAlexey BraginMikko KarppinenRemo MaccaferriNikolay MezentsevYannis PapaphilippouPeter PeifferRobert RossmanithGiovanni RumoloStephan RussenschuckPavel VoblyKonstantin ZolotarevTo achieve high luminosity at the collision point of the Compact Linear Collider (CLIC), the normalized horizontal and vertical emittances of the electron and positron beams must be reduced to 500 and 4 nm before the beams enter the 1.5 TeV linear accelerators. An effective way to accomplish ultralow emittances with only small effects on the electron polarization is using damping rings operating at 2.86 GeV equipped with superconducting wiggler magnets. This paper describes a technical design concept for the CLIC damping wigglers.http://doi.org/10.1103/PhysRevSTAB.15.042401
collection DOAJ
language English
format Article
sources DOAJ
author Daniel Schoerling
Fanouria Antoniou
Axel Bernhard
Alexey Bragin
Mikko Karppinen
Remo Maccaferri
Nikolay Mezentsev
Yannis Papaphilippou
Peter Peiffer
Robert Rossmanith
Giovanni Rumolo
Stephan Russenschuck
Pavel Vobly
Konstantin Zolotarev
spellingShingle Daniel Schoerling
Fanouria Antoniou
Axel Bernhard
Alexey Bragin
Mikko Karppinen
Remo Maccaferri
Nikolay Mezentsev
Yannis Papaphilippou
Peter Peiffer
Robert Rossmanith
Giovanni Rumolo
Stephan Russenschuck
Pavel Vobly
Konstantin Zolotarev
Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings
Physical Review Special Topics. Accelerators and Beams
author_facet Daniel Schoerling
Fanouria Antoniou
Axel Bernhard
Alexey Bragin
Mikko Karppinen
Remo Maccaferri
Nikolay Mezentsev
Yannis Papaphilippou
Peter Peiffer
Robert Rossmanith
Giovanni Rumolo
Stephan Russenschuck
Pavel Vobly
Konstantin Zolotarev
author_sort Daniel Schoerling
title Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings
title_short Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings
title_full Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings
title_fullStr Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings
title_full_unstemmed Design and system integration of the superconducting wiggler magnets for the Compact Linear Collider damping rings
title_sort design and system integration of the superconducting wiggler magnets for the compact linear collider damping rings
publisher American Physical Society
series Physical Review Special Topics. Accelerators and Beams
issn 1098-4402
publishDate 2012-04-01
description To achieve high luminosity at the collision point of the Compact Linear Collider (CLIC), the normalized horizontal and vertical emittances of the electron and positron beams must be reduced to 500 and 4 nm before the beams enter the 1.5 TeV linear accelerators. An effective way to accomplish ultralow emittances with only small effects on the electron polarization is using damping rings operating at 2.86 GeV equipped with superconducting wiggler magnets. This paper describes a technical design concept for the CLIC damping wigglers.
url http://doi.org/10.1103/PhysRevSTAB.15.042401
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