002141898 001__ 2141898
002141898 003__ SzGeCERN
002141898 005__ 20240223165030.0
002141898 0248_ $$aoai:inspirehep.net:1418690$$pcerncds:CERN:FULLTEXT$$pcerncds:FULLTEXT$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002141898 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1418690$$d2016-03-26T20:38:56Z$$h2016-03-27T04:00:49Z$$mmarcxml
002141898 035__ $$9Inspire$$a1418690
002141898 041__ $$aeng
002141898 088__ $$aCERN-ACC-2015-015
002141898 100__ $$aFeliciano, Luis$$jJACoW-00077749$$mluis.feliciano@cern.ch$$uCERN
002141898 245__ $$aA New Hardware Design for PSB Kicker Magnets (KSW) for the 35 mm Transverse Painting in the Horizontal Plane
002141898 260__ $$c2015
002141898 300__ $$a3 p
002141898 520__ $$9JACoW$$aThe changeover from Linac2 to Linac4 in CERN’s injector chain will allow increasing the injection energy into the PS Booster from 50 MeV to 160 MeV. Transverse phase space painting will be performed in the horizontal plane, by means of four stacks of four KSW kicker magnets. The KSW magnets are located outside the injection region and will produce a 35 mm closed orbit bump, with falling amplitude during the injection to accomplish transverse phase space painting to the required emittance. New magnets with two different types of coils are being built using the existing design. The magnets are made of two halves, which are assembled together around a vacuum ceramic chamber. In order to reduce the beam impedance, the ceramic chamber is internally coated by a thin titanium layer. A new multiple-linear waveform generator has been developed to provide the high flexibility in the KSW kicker magnets current decay to fulfil the requirements of all the different users (LHC, nTOF, ISOLDE, CNGS, etc.).
002141898 540__ $$3publication$$aCC-BY-3.0
002141898 542__ $$3publication$$dThe Author(s)$$g2015
002141898 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
002141898 6531_ $$2JACoW$$ainjection
002141898 6531_ $$2JACoW$$akicker
002141898 6531_ $$2JACoW$$alinac
002141898 6531_ $$2JACoW$$avacuum
002141898 6531_ $$2JACoW$$aemittance
002141898 690C_ $$aCERN
002141898 700__ $$0AUTHOR|(CDS)2068249$$9#BEARD#$$aBracco, Chiara$$jJACoW-00021537$$jORCID:0000-0002-4698-5429$$uCERN
002141898 700__ $$aDucimetière, Laurent$$iINSPIRE-00540386$$jJACoW-00001690$$uCERN
002141898 700__ $$aFowler, Tony$$jJACoW-00004684$$uCERN
002141898 700__ $$aGräwer, Gregor$$jJACoW-00021818$$uCERN
002141898 700__ $$aNoulibos, Remy$$jJACoW-00039295$$uCERN
002141898 700__ $$aSermeus, Luc$$iINSPIRE-00125241$$jJACoW-00004717$$uCERN
002141898 700__ $$aWeterings, Wim$$jJACoW-00004260$$uCERN
002141898 700__ $$aZannini, Carlo$$iINSPIRE-00372980$$jJACoW-00039097$$uCERN
002141898 710__ $$5ATS
002141898 773__ $$cTHPF086$$qIPAC2015$$wC15-05-03$$y2015
002141898 8564_ $$uhttps://accelconf.web.cern.ch/IPAC2015/papers/thpf086.pdf$$yJACOW
002141898 8564_ $$81186413$$s987597$$uhttp://cds.cern.ch/record/2141898/files/thpf086.pdf$$yPublished version from JACoW
002141898 960__ $$a13
002141898 962__ $$b2024999$$kTHPF086$$nrichmond20150503
002141898 980__ $$aARTICLE
002141898 980__ $$aConferencePaper
002141898 999C6 $$a0-0-0-0-0-0-1$$t2016-02-01 16:58:29$$vInvenio/1.1.2.1260-aa76f refextract/1.5.44$$vcontent.pdf;1