002141799 001__ 2141799
002141799 003__ SzGeCERN
002141799 005__ 20240223165012.0
002141799 0248_ $$aoai:inspirehep.net:1417326$$pcerncds:CERN:FULLTEXT$$pcerncds:FULLTEXT$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002141799 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1417326$$d2016-03-26T20:38:45Z$$h2016-03-27T04:00:34Z$$mmarcxml
002141799 035__ $$9Inspire$$a1417326
002141799 041__ $$aeng
002141799 088__ $$aCERN-ACC-2015-314
002141799 100__ $$0AUTHOR|(CDS)2079202$$9#BEARD#$$aWelsch, Carsten$$jJACoW-00000587$$mc.p.welsch@liverpool.ac.uk$$uU. Liverpool (main)$$uCockcroft Inst. Accel. Sci. Tech.$$vThe University of Liverpool, Liverpool, United Kingdom
002141799 245__ $$aNon-invasive Beam Profile Monitoring
002141799 260__ $$c2015
002141799 300__ $$a3 p
002141799 520__ $$9JACoW$$aState-of-the-art high energy and high intensity accelerators require new approaches to transverse beam profile monitoring as many established techniques will no longer work due to the high power stored in the beam. In addition, many accelerator applications such as ion beam cancer therapy or material irradiation would benefit significantly from the availability of non-invasive beam profile monitors. Research in the QUASAR Group has focused on this area over the past 5 years. Two different approaches were successfully developed: Firstly, a supersonic gas jet-based monitor was designed and commissioned. It enables the detection of the 2-dimensional transverse beam profile of essentially any charged particle beam with negligible disturbance of the primary beam and accelerator vacuum. Secondly, a monitor based on the Silicon strip VELO detector, originally developed for the LHCb experiment, was tested as an online beam monitor at the Clatterbridge Cancer Center in the UK. The design of both monitors is presented in this contribution. Results from measurements are discussed and complemented by numerical studies into the performance limits of either technique.
002141799 540__ $$3publication$$aCC-BY-3.0
002141799 542__ $$3publication$$dThe Author(s)$$g2015
002141799 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
002141799 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002141799 6531_ $$2JACoW$$adetector
002141799 6531_ $$2JACoW$$avacuum
002141799 6531_ $$2JACoW$$aion
002141799 6531_ $$2JACoW$$aoperation
002141799 6531_ $$2JACoW$$amonitoring
002141799 690C_ $$aCERN
002141799 700__ $$aCybulski, Tomasz$$jJACoW-00048246$$mt.cybulski@liv.ac.uk$$uCockcroft Inst. Accel. Sci. Tech.$$uU. Liverpool (main)$$vThe University of Liverpool, Liverpool, United Kingdom
002141799 700__ $$aJeff, Adam$$jJACoW-00043816$$madam.jeff@cern.ch$$uCERN$$uCockcroft Inst. Accel. Sci. Tech.$$uU. Liverpool (main)$$vCockcroft Institute, Warrington, Cheshire, United Kingdom
002141799 700__ $$aTzoganis, Vasilis$$jJACoW-00064302$$mvasileios.tzoganis@cockcroft.ac.uk$$uU. Liverpool (main)$$uCockcroft Inst. Accel. Sci. Tech.$$uRIKEN (main)$$vCockcroft Institute, Warrington, Cheshire, United Kingdom
002141799 700__ $$aZhang, Hao$$jJACoW-00046091$$mhaozhang@liverpool.ac.uk$$uCockcroft Inst. Accel. Sci. Tech.$$uU. Liverpool (main)$$vThe University of Liverpool, Liverpool, United Kingdom
002141799 710__ $$5ATS
002141799 773__ $$cMOPMA005$$qIPAC2015$$wC15-05-03$$y2015
002141799 8564_ $$uhttps://accelconf.web.cern.ch/IPAC2015/papers/mopma005.pdf$$yJACOW
002141799 8564_ $$81186314$$s486200$$uhttp://cds.cern.ch/record/2141799/files/mopma005.pdf$$yPublished version from JACoW
002141799 960__ $$a13
002141799 962__ $$b2024999$$kMOPMA005$$nrichmond20150503
002141799 980__ $$aARTICLE
002141799 980__ $$aConferencePaper
002141799 999C6 $$a0-0-0-1-3-0-1$$t2016-02-01 21:07:18$$vInvenio/1.1.2.1260-aa76f refextract/1.5.44$$vcontent.pdf;1