000071977 001__ 71977
000071977 005__ 20171002115559.0
000071977 0247_ $$2DOI$$9JACoW$$a10.18429/JACoW-IPAC2017-WEPVA087
000071977 035__ $$9INSPIRETeX$$aBorisov:2017hkv
000071977 100__ $$aBorisov, Vladimir$$jJACoW-00021847$$mborisov@jinr.ru$$uDubna, JINR$$vJINR, Dubna, Moscow Region, Russia
000071977 245__ $$9JACoW$$aMagnetic Measurements of NICA Booster Dipoles
000071977 260__ $$c2017-05
000071977 300__ $$a3
000071977 500__ $$a*Temporary record*
000071977 520__ $$9JACoW$$aNICA is a new accelerator collider complex under construction at the Joint Institute for Nuclear Research in Dubna. NICA booster magnetic system consists of 40 dipole and 48 quadrupole superconducting magnets. Measurement of magnetic field parameters is assumed for each booster magnets. At the moment 20 series dipole magnets are assembled and have passed all tests. Booster dipole magnets are 2.14 m-long, 128 /65 mm (h/v) aperture magnets with design similar to Nuclotron dipole magnet but with curved (14.1 m radius) yoke. They will produce fields up to 1.8 T. The magnetic field parameters will be measured at warm (300 K) and cold (4.5 K) conditions. This paper describes magnetic measurements methods and developing of magnetic measurements system. The obtained results of magnetic measurements of 20 magnets are summarized here.
000071977 540__ $$9JACoW$$aCC-BY-3.0$$uhttp://creativecommons.org/licenses/by/3.0/
000071977 65017 $$2INSPIRE$$aAccelerators
000071977 6531_ $$2JACoW$$adipole
000071977 6531_ $$2JACoW$$abooster
000071977 6531_ $$2JACoW$$ainjection
000071977 6531_ $$2JACoW$$acollider
000071977 6531_ $$2JACoW$$asynchrotron
000071977 695__ $$2INSPIRE$$a* Automatic Keywords *
000071977 695__ $$2INSPIRE$$9bibclassify$$amagnet: superconductivity
000071977 695__ $$2INSPIRE$$9bibclassify$$abeam: width
000071977 695__ $$2INSPIRE$$9bibclassify$$abooster
000071977 695__ $$2INSPIRE$$9bibclassify$$abending magnet
000071977 695__ $$2INSPIRE$$9bibclassify$$adipole
000071977 695__ $$2INSPIRE$$9bibclassify$$aNICA
000071977 695__ $$2INSPIRE$$9bibclassify$$amagnetic field
000071977 695__ $$2INSPIRE$$9bibclassify$$aDubna Nuclotron
000071977 695__ $$2INSPIRE$$9bibclassify$$asynchrotron
000071977 695__ $$2INSPIRE$$9bibclassify$$aaccelerator
000071977 695__ $$2INSPIRE$$9bibclassify$$ainjection
000071977 695__ $$2INSPIRE$$9bibclassify$$anucleus
000071977 700__ $$aBychkov, Alexander$$jJACoW-00092948$$mavengerxiii@gmail.com$$uDubna, JINR$$vJINR, Dubna, Russia
000071977 700__ $$aDonyagin, Alexei$$jJACoW-00005173$$mdonyagin@lhe.jinr.ru$$uDubna, JINR$$vJINR, Dubna, Russia
000071977 700__ $$aGolubitsky, Oleg$$jJACoW-00069102$$mgolubit1@gmail.com$$uDubna, JINR$$vJINR, Dubna, Russia
000071977 700__ $$aKhodzhibagiyan, Hamlet$$jJACoW-00047248$$mhamlet@jinr.ru$$uDubna, JINR$$vJINR, Dubna, Russia
000071977 700__ $$aKostromin, Sergey$$jJACoW-00021586$$mkostromin@jinr.ru$$uDubna, JINR$$vJINR, Dubna, Russia
000071977 700__ $$aOmelyanenko, Mikhail$$jJACoW-00092949$$mmmomelyanenko@inbox.ru$$uDubna, JINR$$vJINR, Dubna, Russia
000071977 700__ $$aShandov, Mikhail$$jJACoW-00092950$$mshandov@jinr.ru$$uDubna, JINR$$vJINR, Dubna, Russia
000071977 700__ $$aShemchuk, Andrey$$jJACoW-00088609$$mandrushka211092@yandex.ru$$uDubna, JINR$$vJINR/VBLHEP, Dubna, Moscow region, Russia
000071977 773__ $$cWEPVA087$$qIPAC2017$$wC17-05-14$$y2017
000071977 8564_ $$s378193$$uhttp://inspirehep.net/record/1626305/files/wepva087.pdf
000071977 909CO $$ooai:inspirehep.net:1626305$$pINSPIRE:HEP
000071977 980__ $$aCORE
000071977 980__ $$aHEP
000071977 980__ $$aConferencePaper
000071977 999C5 $$mNuclotron - based ion collider facility. Available:$$o1$$uhttp://nica.jinr.ru/
000071977 999C5 $$hG. Trubnikov et al.$$mProceedings of IPAC, Shanghai,, pp. 1343 - 1345$$o2$$tNICA project at JINR$$y2013
000071977 999C5 $$hA. Tuzikov et al.$$i978-3-95450-181-6$$min Proc. 25th Russian Particle Accelerator Conf. (RuPAC'16), St. Petersburg, Russia, Nov., paper FRCAMH05, pp. 160-162, doi:10.18429/JACoW-RuPAC-FRCAMH05$$o3$$tBooster Synchrotron at NICA Accelerator Complex$$y2016
000071977 999C5 $$hH.G. Khodzhibagiyan et al.$$i978-3-95450-181-6$$min Proc. 25th Russian Particle Accelerator Conf. (RuPAC'16), St. Petersburg, Russia, Nov., paper THCDMH03, pp. 144-146, doi:10.18429/JACoW-RuPAC-THCDMH03$$o4$$tThe Progress on Manufacturing and Testing of the SC Magnets for the NICA Booster Synchrotron$$y2016
000071977 999C5 $$hH. Khodzhibagiyan et al.$$o5$$sIEEE Trans.Appl.Supercond.,26,N3$$tSuperconducting Magnets for the NICA Accelerator Collider Project$$y2016
000071977 999C5 $$hH. Khodzhibagiyan et al.$$mpp. 4001304, June$$o6$$sIEEE Trans.Appl.Supercond.,24,N3$$tSuperconducting Magnets for the NICA Accelerator-Collider Complex$$y2014
000071977 999C5 $$hV. Borisov et al.$$min Proceedings of the 5th International Particle Accelerator Conference IPAC, Dresden, Germany, June 15-20,, p. 2696, paper WEPRI088$$o7$$tMagnetic measurement system for the NICA booster magnets$$y2014
000071977 999C5 $$hS. A. Kostromin et al.$$mPhysics of Particles and Nuclei Letters,, Vol. 13, No. 7, pp. 855-861$$o8$$tMeasurement of the MagneticField Parameters of the NICA Booster Dipole Magnet$$y2016
000071977 999C6 $$a0-0-0-1-0-0-1$$t2017-09-29 10:16:30$$vInvenio/1.1.2.1260-aa76f refextract/1.5.44$$vcontent.pdf;1