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Simulation of Multibunch Instabilities with the HEADTAIL Code

Multibunch instabilities due to beam-coupling impedance can be a critical limitation for synchrotrons operating with many bunches. To study these instabilities, the HEADTAIL code has been extended to simulate the motion of many bunches under the action of wake fields. All the features already presen...

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Detalles Bibliográficos
Autores principales: Mounet, N, Metral, E, Rumolo, G
Lenguaje:eng
Publicado: 2012
Materias:
Acceso en línea:http://cds.cern.ch/record/1696813
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author Mounet, N
Metral, E
Rumolo, G
author_facet Mounet, N
Metral, E
Rumolo, G
author_sort Mounet, N
collection CERN
description Multibunch instabilities due to beam-coupling impedance can be a critical limitation for synchrotrons operating with many bunches. To study these instabilities, the HEADTAIL code has been extended to simulate the motion of many bunches under the action of wake fields. All the features already present in the single-bunch version of the code have remained available, in particular synchrotron motion, chromaticity, amplitude detuning due to octupoles and the ability to load any kind of wake fields through tables. Multibunch instabilities due to beam-coupling impedance can be a critical limitation for synchrotrons operating with many bunches. To study these instabilities, the HEADTAIL code has been extended to simulate the motion of many bunches under the action of wake fields. All the features already present in the single-bunch version of the code have remained available, in particular synchrotron motion, chromaticity, amplitude detuning due to octupoles and the ability to load any kind of wake fields through tables.
id cern-1696813
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2012
record_format invenio
spelling cern-16968132022-08-17T13:25:16Zhttp://cds.cern.ch/record/1696813engMounet, NMetral, ERumolo, GSimulation of Multibunch Instabilities with the HEADTAIL CodeAccelerators and Storage RingsMultibunch instabilities due to beam-coupling impedance can be a critical limitation for synchrotrons operating with many bunches. To study these instabilities, the HEADTAIL code has been extended to simulate the motion of many bunches under the action of wake fields. All the features already present in the single-bunch version of the code have remained available, in particular synchrotron motion, chromaticity, amplitude detuning due to octupoles and the ability to load any kind of wake fields through tables. Multibunch instabilities due to beam-coupling impedance can be a critical limitation for synchrotrons operating with many bunches. To study these instabilities, the HEADTAIL code has been extended to simulate the motion of many bunches under the action of wake fields. All the features already present in the single-bunch version of the code have remained available, in particular synchrotron motion, chromaticity, amplitude detuning due to octupoles and the ability to load any kind of wake fields through tables.oai:cds.cern.ch:16968132012
spellingShingle Accelerators and Storage Rings
Mounet, N
Metral, E
Rumolo, G
Simulation of Multibunch Instabilities with the HEADTAIL Code
title Simulation of Multibunch Instabilities with the HEADTAIL Code
title_full Simulation of Multibunch Instabilities with the HEADTAIL Code
title_fullStr Simulation of Multibunch Instabilities with the HEADTAIL Code
title_full_unstemmed Simulation of Multibunch Instabilities with the HEADTAIL Code
title_short Simulation of Multibunch Instabilities with the HEADTAIL Code
title_sort simulation of multibunch instabilities with the headtail code
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/1696813
work_keys_str_mv AT mounetn simulationofmultibunchinstabilitieswiththeheadtailcode
AT metrale simulationofmultibunchinstabilitieswiththeheadtailcode
AT rumolog simulationofmultibunchinstabilitieswiththeheadtailcode