Crab cavities for linear colliders

Crab cavities have been proposed for a wide number of accelerators and interest in crab cavities has recently increased after the successful operation of a pair of crab cavities in KEK-B. In particular crab cavities are required for both the ILC and CLIC linear colliders for bunch alignment. Conside...

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Autores principales: Burt, G., Ambattu, P., Carter, R., Dexter, A., Tahir, I., Beard, C., Dykes, M., Goudket, P., Kalinin, A., Ma, L., McIntosh, P., Shulte, D., Jones, Roger M., Bellantoni, L., Chase, B., Church, M., Khabouline, T., Latina, A., Adolphsen, C., Li, Z., Seryi, Andrei, Xiao, L.
Lenguaje:eng
Publicado: 2008
Materias:
Accelerators and Storage Rings
Acceso en línea:http://cds.cern.ch/record/1135004
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author Burt, G.
Ambattu, P.
Carter, R.
Dexter, A.
Tahir, I.
Beard, C.
Dykes, M.
Goudket, P.
Kalinin, A.
Ma, L.
McIntosh, P.
Shulte, D.
Jones, Roger M.
Bellantoni, L.
Chase, B.
Church, M.
Khabouline, T.
Latina, A.
Adolphsen, C.
Li, Z.
Seryi, Andrei
Xiao, L.
author_facet Burt, G.
Ambattu, P.
Carter, R.
Dexter, A.
Tahir, I.
Beard, C.
Dykes, M.
Goudket, P.
Kalinin, A.
Ma, L.
McIntosh, P.
Shulte, D.
Jones, Roger M.
Bellantoni, L.
Chase, B.
Church, M.
Khabouline, T.
Latina, A.
Adolphsen, C.
Li, Z.
Seryi, Andrei
Xiao, L.
author_sort Burt, G.
collection CERN
description Crab cavities have been proposed for a wide number of accelerators and interest in crab cavities has recently increased after the successful operation of a pair of crab cavities in KEK-B. In particular crab cavities are required for both the ILC and CLIC linear colliders for bunch alignment. Consideration of bunch structure and size constraints favour a 3.9 GHz superconducting, multi-cell cavity as the solution for ILC, whilst bunch structure and beam-loading considerations suggest an X-band copper travelling wave structure for CLIC. These two cavity solutions are very different in design but share complex design issues. Phase stabilisation, beam loading, wakefields and mode damping are fundamental issues for these crab cavities. Requirements and potential design solutions will be discussed for both colliders.
id cern-1135004
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2008
record_format invenio
spelling cern-11350042023-01-31T09:12:36Zhttp://cds.cern.ch/record/1135004engBurt, G.Ambattu, P.Carter, R.Dexter, A.Tahir, I.Beard, C.Dykes, M.Goudket, P.Kalinin, A.Ma, L.McIntosh, P.Shulte, D.Jones, Roger M.Bellantoni, L.Chase, B.Church, M.Khabouline, T.Latina, A.Adolphsen, C.Li, Z.Seryi, AndreiXiao, L.Crab cavities for linear collidersAccelerators and Storage RingsCrab cavities have been proposed for a wide number of accelerators and interest in crab cavities has recently increased after the successful operation of a pair of crab cavities in KEK-B. In particular crab cavities are required for both the ILC and CLIC linear colliders for bunch alignment. Consideration of bunch structure and size constraints favour a 3.9 GHz superconducting, multi-cell cavity as the solution for ILC, whilst bunch structure and beam-loading considerations suggest an X-band copper travelling wave structure for CLIC. These two cavity solutions are very different in design but share complex design issues. Phase stabilisation, beam loading, wakefields and mode damping are fundamental issues for these crab cavities. Requirements and potential design solutions will be discussed for both colliders.Crab cavities have been proposed for a wide number of accelerators and interest in crab cavities has recently increased after the successful operation of a pair of crab cavities in KEK-B. In particular crab cavities are required for both the ILC and CLIC linear colliders for bunch alignment. Consideration of bunch structure and size constraints favour a 3.9 GHz superconducting, multi-cell cavity as the solution for ILC, whilst bunch structure and beam-loading considerations suggest an X-band copper travelling wave structure for CLIC. These two cavity solutions are very different in design but share complex design issues. Phase stabilisation, beam loading, wakefields and mode damping are fundamental issues for these crab cavities. Requirements and potential design solutions will be discussed for both colliders.arXiv:0810.2880SLAC-PUB-14695FERMILAB-CONF-08-537-AD-TDoai:cds.cern.ch:11350042008-10-17
spellingShingle Accelerators and Storage Rings
Burt, G.
Ambattu, P.
Carter, R.
Dexter, A.
Tahir, I.
Beard, C.
Dykes, M.
Goudket, P.
Kalinin, A.
Ma, L.
McIntosh, P.
Shulte, D.
Jones, Roger M.
Bellantoni, L.
Chase, B.
Church, M.
Khabouline, T.
Latina, A.
Adolphsen, C.
Li, Z.
Seryi, Andrei
Xiao, L.
Crab cavities for linear colliders
title Crab cavities for linear colliders
title_full Crab cavities for linear colliders
title_fullStr Crab cavities for linear colliders
title_full_unstemmed Crab cavities for linear colliders
title_short Crab cavities for linear colliders
title_sort crab cavities for linear colliders
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/1135004
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