002631995 001__ 2631995
002631995 003__ SzGeCERN
002631995 005__ 20190312185923.0
002631995 0247_ $$2DOI$$9submitter$$a10.1109/TASC.2009.2038795
002631995 0248_ $$aoai:inspirehep.net:1666453$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002631995 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1666453$$d2018-07-20T15:30:54Z$$h2018-07-21T07:42:05Z$$mmarcxml
002631995 035__ $$9Inspire$$a1666453
002631995 041__ $$aeng
002631995 100__ $$aXu, [email protected]$$uKEK, Tsukuba
002631995 245__ $$9submitter$$aDesign of a High Field ${\rm Nb}_{3}{\rm Al}$ Common Coil Magnet
002631995 246__ $$9crossref$$aDesign of a High Field ${\rm Nb}_{3}{\rm Al}$ Common Coil Magnet
002631995 260__ $$c2010
002631995 300__ $$a4 p
002631995 520__ $$9submitter$$aA high field Nb3Al common coil magnet is under development as an R&D; of "Advanced Superconducting Magnets for the LHC Luminosity Upgrade", in the framework of the CERN-KEK cooperation program. The goal of this research is to demonstrate the feasibility of high field magnet wound with Nb3Al cable. The common coil approach and the shell-based structure were adopted in the design of this magnet. Besides three Nb3Al coils, two Nb3Sn coils were included to increase the peak field of the whole magnet. The two types of coils were designed with different straight lengths to reduce the peak field of the Nb3Sn coils. The peak fields of the Nb3Al and Nb3Sn coils are 13.1 T and 11.8 T respectively. An aluminum shell together with four aluminum rods applies stress to the coils to overcome the Lorenz force during excitation. Two different support structures for the superconducting coils were introduced in this paper. The development status is also presented.
002631995 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
002631995 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
002631995 690C_ $$aCERN
002631995 693__ $$aCERN LHC
002631995 700__ $$aSasaki, [email protected]$$uKEK, Tsukuba
002631995 700__ $$aNakamoto, [email protected]$$uKEK, Tsukuba
002631995 700__ $$aTerashima, [email protected]$$uKEK, Tsukuba
002631995 700__ $$aTsuchiya, [email protected]$$uKEK, Tsukuba
002631995 700__ $$aYamamoto, [email protected]$$uKEK, Tsukuba
002631995 700__ $$aKikuchi, [email protected]$$uTsukuba Magnet Lab.
002631995 700__ $$aTakeuchi, [email protected]$$uTsukuba Magnet Lab.
002631995 700__ $$aSabbi, [email protected]$$uLBNL, Berkeley
002631995 700__ $$aCaspi, [email protected]$$uLBNL, Berkeley
002631995 700__ $$aFerracin, [email protected]$$uLBNL, Berkeley
002631995 700__ $$aFelice, [email protected]$$uLBNL, Berkeley
002631995 700__ $$aHafalia, [email protected]$$uLBNL, Berkeley
002631995 700__ $$aZlobin, [email protected]$$uFermilab
002631995 700__ $$aBarzi, [email protected]$$uFermilab
002631995 700__ $$aYamada, [email protected]$$uFermilab
002631995 773__ $$c176-179$$n3$$pIEEE Trans. Appl. Supercond.$$v20$$wC09-10-18.1$$y2010
002631995 960__ $$a13
002631995 962__ $$b1282392$$k176-179$$nhefei20091018
002631995 980__ $$aARTICLE
002631995 980__ $$aConferencePaper
002631995 999C6 $$a0-0-1-1-0-0-1$$t2018-04-09 12:03:31$$vInvenio/1.1.2.1260-aa76f refextract/1.5.44
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002631995 999C5 $$hR. Gupta$$min Proc.Particle Accelerator Conf., pp. 3344-3347$$o2$$tA common coil design for high field 2-in-1 accelerator magnets$$y1997
002631995 999C5 $$01666150$$hR. R. Hafalia, S. Caspi, L. Chiesa, M. Coccoli, D. R. Dietderich, and S. A. Gourlay et al.$$o3$$sIEEE Trans.Appl.Supercond.,13,1258-1261$$tAn approach for faster high field magnet technology development$$y2003
002631995 999C5 $$hA. Kikuchi, R. Yamada, K. Tsuchiya, T. Nakamoto, E. Barzi, and D. Turrioni et al.$$mpresented at the MT-21 Conf$$o4$$tStrand and cable development for a high field common coil magnet$$y2009
002631995 999C5 $$mLBNL Technical Document$$o5$$tCable Critical Current vs. Field 6555 H1 Brl L41$$y2004
002631995 999C5 $$01502559$$hP. A. Bish, S. Caspi, D. R. Dietderich, S. A. Gourlay, R. R. Hafalia, and R. Hannaford et al.$$o6$$sIEEE Trans.Appl.Supercond.,12,47-50$$tA new support structure for high field magnets$$y2002
002631995 999C5 $$9CURATOR$$mMeasurements Group Tech Note TN-513 [Online]. Available:$$o7$$tTechnology for measurement of thermal expansion coefficient$$uhttp://www.vishay.com/docs/11063/tn5131.pdf$$y2007
002631995 999C5 $$9CURATOR$$mMeasurements Group Tech Note TN-504-1 [Online]. Available:$$o8$$tStrain gage thermal output and gage factor variation with temperature$$uhttp://www.vishay.com/docs/11063/tn5131.pdf$$y2007
002631995 999C5 $$mTech Note TN-501, 504, 507, 509, 511, 514 [Online]. Available:$$o9$$tStrain measurement errors$$uhttp://www.vishay.com/strain-gages/knowledge-base-list/technotes-list/
002631995 999C5 $$0762143$$hR. Yamada, A. Kikuchi, G. Chlachidze, G. Ambrosio, N. Andreev, and E. Barzi et al.$$m2$$o10$$sIEEE Trans.Appl.Supercond.,18,1039-1042$$tQuench tests of small racetrack magnets