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HOM Dampers or not in Superconducting RF Proton Linacs

Circular machines are plagued by Coupled Bunch Instabilities, driven by impedance peaks, irrespectively of their frequency relation to machine lines; hence all cavity Higher Order Modes are possible drivers. This is the fundamental reason that all superconducting RF cavities in circular machines are...

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Autor principal: Tückmantel, Joachim
Lenguaje:eng
Publicado: 2009
Materias:
Acceso en línea:http://cds.cern.ch/record/1164770
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author Tückmantel, Joachim
author_facet Tückmantel, Joachim
author_sort Tückmantel, Joachim
collection CERN
description Circular machines are plagued by Coupled Bunch Instabilities, driven by impedance peaks, irrespectively of their frequency relation to machine lines; hence all cavity Higher Order Modes are possible drivers. This is the fundamental reason that all superconducting RF cavities in circular machines are equipped with HOM dampers. This raises the question if HOM damping would not be imperative also in high current proton linacs where a mechanism akin to CBI might exist. To clarify this question we have simulated the longitudinal bunched beam dynamics in linacs, allowing bunch-to-bunch variations in time-of-arrival. Simulations were executed for a generic proton linac with properties close to SNS or the planned SPL at CERN. It was found that for monopole HOMs with high Qext large beam scatter or even beam loss cannot be excluded. Therefore omitting HOM dampers on superconducting RF cavities in high current proton linacs, even pulsed ones, is a very risky decision.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2009
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spelling cern-11647702019-09-30T06:29:59Zhttp://cds.cern.ch/record/1164770engTückmantel, JoachimHOM Dampers or not in Superconducting RF Proton LinacsAccelerators and Storage RingsCircular machines are plagued by Coupled Bunch Instabilities, driven by impedance peaks, irrespectively of their frequency relation to machine lines; hence all cavity Higher Order Modes are possible drivers. This is the fundamental reason that all superconducting RF cavities in circular machines are equipped with HOM dampers. This raises the question if HOM damping would not be imperative also in high current proton linacs where a mechanism akin to CBI might exist. To clarify this question we have simulated the longitudinal bunched beam dynamics in linacs, allowing bunch-to-bunch variations in time-of-arrival. Simulations were executed for a generic proton linac with properties close to SNS or the planned SPL at CERN. It was found that for monopole HOMs with high Qext large beam scatter or even beam loss cannot be excluded. Therefore omitting HOM dampers on superconducting RF cavities in high current proton linacs, even pulsed ones, is a very risky decision.CERN-BE-Note-2009-009oai:cds.cern.ch:11647702009-02-24
spellingShingle Accelerators and Storage Rings
Tückmantel, Joachim
HOM Dampers or not in Superconducting RF Proton Linacs
title HOM Dampers or not in Superconducting RF Proton Linacs
title_full HOM Dampers or not in Superconducting RF Proton Linacs
title_fullStr HOM Dampers or not in Superconducting RF Proton Linacs
title_full_unstemmed HOM Dampers or not in Superconducting RF Proton Linacs
title_short HOM Dampers or not in Superconducting RF Proton Linacs
title_sort hom dampers or not in superconducting rf proton linacs
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/1164770
work_keys_str_mv AT tuckmanteljoachim homdampersornotinsuperconductingrfprotonlinacs