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HL-LHC kicker magnet (MKI)

HL-LHC kicker magnet (MKI): last vacuum test, preparation for transport to LHC transfer line in underground tunnel.The LHC injection kicker systems (MKIs) generate fast field pulses to inject the clockwise rotating beam at Point 2 and the anti-clockwise rotating beam at Point 8: there are eight MKI...

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Autor principal: Brice, Maximilien
Publicado: 2018
Materias:
Acceso en línea:http://cds.cern.ch/record/2300200
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author Brice, Maximilien
author_facet Brice, Maximilien
author_sort Brice, Maximilien
collection CERN
description HL-LHC kicker magnet (MKI): last vacuum test, preparation for transport to LHC transfer line in underground tunnel.The LHC injection kicker systems (MKIs) generate fast field pulses to inject the clockwise rotating beam at Point 2 and the anti-clockwise rotating beam at Point 8: there are eight MKI magnets installed in total. Each MKI magnet contains a high purity alumina tube: if an MKI magnet is replaced this tube requires conditioning with LHC beam: until it is properly conditioned, there can be high vacuum pressure due to the beam. This high pressure can also cause electrical breakdowns in the MKI magnets. A special coating (Cr2O3) has been applied to the inside of the alumina tube of an upgraded MKI magnet – this is expected to greatly reduce the pressure rise with beam. In addition, HL-LHC beam would result in excessive heating of the MKI magnets: the upgraded design includes modifications that will reduce heating, and move the power deposition to parts that will be easier to cool. Experience during 2018 operation is required to complete the validation of the upgraded MKI magnet
id cern-2300200
institution Organización Europea para la Investigación Nuclear
publishDate 2018
record_format invenio
spelling cern-23002002019-09-30T06:29:59Zhttp://cds.cern.ch/record/2300200Brice, MaximilienHL-LHC kicker magnet (MKI)PhotolabHL-LHC kicker magnet (MKI): last vacuum test, preparation for transport to LHC transfer line in underground tunnel.The LHC injection kicker systems (MKIs) generate fast field pulses to inject the clockwise rotating beam at Point 2 and the anti-clockwise rotating beam at Point 8: there are eight MKI magnets installed in total. Each MKI magnet contains a high purity alumina tube: if an MKI magnet is replaced this tube requires conditioning with LHC beam: until it is properly conditioned, there can be high vacuum pressure due to the beam. This high pressure can also cause electrical breakdowns in the MKI magnets. A special coating (Cr2O3) has been applied to the inside of the alumina tube of an upgraded MKI magnet – this is expected to greatly reduce the pressure rise with beam. In addition, HL-LHC beam would result in excessive heating of the MKI magnets: the upgraded design includes modifications that will reduce heating, and move the power deposition to parts that will be easier to cool. Experience during 2018 operation is required to complete the validation of the upgraded MKI magnetCERN-PHOTO-201801-005oai:cds.cern.ch:23002002018
spellingShingle Photolab
Brice, Maximilien
HL-LHC kicker magnet (MKI)
title HL-LHC kicker magnet (MKI)
title_full HL-LHC kicker magnet (MKI)
title_fullStr HL-LHC kicker magnet (MKI)
title_full_unstemmed HL-LHC kicker magnet (MKI)
title_short HL-LHC kicker magnet (MKI)
title_sort hl-lhc kicker magnet (mki)
topic Photolab
url http://cds.cern.ch/record/2300200
work_keys_str_mv AT bricemaximilien hllhckickermagnetmki