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002311689 001__ 2311689
002311689 003__ SzGeCERN
002311689 005__ 20180427131724.0
002311689 0247_ $$2DOI$$9submitter$$a10.1109/TASC.2009.2017919
002311689 0248_ $$aoai:inspirehep.net:1665504$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002311689 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1665504$$d2018-04-04T17:32:46Z$$h2018-04-05T04:00:07Z$$mmarcxml
002311689 035__ $$9Inspire$$a1665504
002311689 041__ $$aeng
002311689 100__ $$aCaspi, S$$ms_caspi@lbl.gov$$uLBNL, Berkeley
002311689 245__ $$9submitter$$aTest Results of LARP ${\rm Nb}_{3}{\rm Sn}$ Quadrupole Magnets Using a Shell-Based Support Structure (TQS)
002311689 246__ $$9crossref$$aTest Results of LARP ${\rm Nb}_{3}{\rm Sn}$ Quadrupole Magnets Using a Shell-Based Support Structure (TQS)
002311689 260__ $$c2009
002311689 300__ $$a5 p
002311689 520__ $$9submitter$$aAmongst the magnet development program of a large-aperture Nb$_{3}$Sn superconducting quadrupole for the Large Hadron Collider luminosity upgrade, six quadrupole magnets were built and tested using a shell based key and bladder technology (TQS). The 1 m long 90 mm aperture magnets are part of the US LHC Accelerator Research Program (LARP) aimed at demonstrating Nb$_{3}$Sn technology by the year 2009, of a 3.6 m long magnet capable of achieving 200 T/m. In support of the LARP program the TQS magnets were tested at three different laboratories, LBNL, FNAL and CERN and while at CERN a technology-transfer and a four days magnet disassembly and reassembly were included. This paper summarizes the fabrication, assembly, cool-down and test results of the six magnets and compares measurements with design expectations.
002311689 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
002311689 690C_ $$aCERN
002311689 693__ $$eLARP
002311689 700__ $$aDietderich, D R$$mdrdietderich@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aFelice, H$$mhfelice@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aFerracin, P$$uLBNL, Berkeley
002311689 700__ $$aHafalia, R$$mrrhafalia@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aHannaford, C R$$mrhannaford@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aLietzke, A F$$maflietzke@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aLizarazo, J$$mjlizarazo@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aSabbi, G -L$$kORCID:0000-0001-6954-3482$$memail:glsabbi@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aWang, X R$$kORCID:0000-0001-7065-8615$$memail:xrwang@lbl.gov$$uLBNL, Berkeley
002311689 700__ $$aGhosh, A$$maghosh@bnl.gov$$uBrookhaven Natl. Lab.
002311689 700__ $$aWanderer, P$$iINSPIRE-00134788$$memail:wanderer@bnl.gov$$uBrookhaven Natl. Lab.
002311689 700__ $$aAmbrosio, G$$kORCID:0000-0002-5342-2480$$memail:giorgioa@fnal.gov$$uFermilab
002311689 700__ $$aBarzi, E$$kORCID:0000-0001-5829-2147$$memail:barzi@fnal.gov$$uFermilab
002311689 700__ $$aBossert, R$$iINSPIRE-00266282$$memail:bossert@fnal.gov$$uFermilab
002311689 700__ $$aChlachidze, G$$kORCID:0000-0001-9074-596X$$memail:guram@fnal.gov$$uFermilab
002311689 700__ $$aFeher, S$$kORCID:0000-0003-0749-6363$$memail:fehers@fnal.gov$$uFermilab
002311689 700__ $$aKashikhin, V V$$iINSPIRE-00023217$$memail:vadim@fnal.gov$$uFermilab
002311689 700__ $$aLamm, M$$iINSPIRE-00099770$$memail:lamm@fnal.gov$$uFermilab
002311689 700__ $$aTartaglia, M A$$kORCID:0000-0003-3626-4115$$memail:tartaglia@fnal.gov$$uFermilab
002311689 700__ $$aZlobin, A V$$kORCID:0000-0002-1862-0609$$memail:zlobin@fnal.gov$$uFermilab
002311689 700__ $$aBajko, M$$kORCID:0000-0002-4611-0219$$memail:marta.bajko@cern.ch$$uCERN
002311689 700__ $$aBordini, B$$iINSPIRE-00025430$$memail:bernardo.bordini@cern.ch$$uCERN
002311689 700__ $$aDeRijk, G$$kORCID:0000-0002-8655-6995$$memail:gijs.derijk@cern.ch$$uCERN
002311689 700__ $$aGiloux, C$$mchristian.giloux@cern.ch$$uCERN
002311689 700__ $$aKarppinen, M$$kORCID:0000-0002-7336-031X$$memail:mikko.karppinen@cern.ch$$uCERN
002311689 700__ $$aPerez, J C$$mjuan.carlos.perez@cern.ch$$uCERN
002311689 700__ $$aRossi, L$$uCERN
002311689 700__ $$aSiemko, A$$mandrzej.siemko@cern.ch$$uCERN
002311689 700__ $$aTodesco, E$$kORCID:0000-0001-5518-4191$$memail:ezio.todesco@cern.ch$$uCERN
002311689 773__ $$c1221-1225$$n3$$pIEEE Trans. Appl. Supercond.$$v19$$wC08-08-17.1$$y2009
002311689 960__ $$a13
002311689 962__ $$b1192835$$k1221-1225$$nchicago20080817
002311689 980__ $$aARTICLE
002311689 980__ $$aConferencePaper
002311689 999C6 $$a0-0-0-1-0-0-1$$t2018-04-02 18:21:11$$vInvenio/1.1.2.1260-aa76f refextract/1.5.44
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002311689 999C5 $$9CURATOR$$hG. Ambrosio et al.$$mFNAL Report., TD-07-022, Aug.[Online]. Available:$$o16$$tLARP TQS02a Test Summary$$uhttp://tdserver1.fnal.gov/tdlibry/TD-Notes/2007%20Tech%20Notes/TD-07-022.pdf$$y2007
002311689 999C5 $$9CURATOR$$hM. Bajko et al.$$mCERN, Geneva, Switzerland, Technical Note AT-MCS-07$$o17$$tLARP TQS02b Test Summary$$y2008
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002311689 999C5 $$hB. Bordini and L. Rossi$$min this conference, 4LX04$$o19$$tSelf Field Instability in High-Jc Nb3Sn Strands With High RRR
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002311689 999C5 $$hE. Todesco et al.$$min this conference, 2LPA01$$o21$$tReproducibility of the Coil Positioning in Magnet Models through Magnetic Measurements
002311689 999C5 $$01334012$$hP. Wanderer et al.$$o22$$sIEEE Trans.Appl.Supercond.,18,171-174$$tConstruction and test of a 3.6 m racetrack coils for LARP$$y2008
002311689 999C5 $$hP. Ferracin et al.$$min this confere$$o23$$tFabrication and Test of a 3.7 m Long Support Structure for the LARP Quadrupole Magnet LQS01