Title :
Development of superconducting dipole design for creation of fast-cycling magnetic fields
Author :
Ageev, A. ; Bogdanov, I. ; Kozub, S. ; Scherbakov, P. ; Slabodchikov, P. ; Sytnik, V. ; Tkachenko, L. ; Zubko, V. ; Kaugerts, J. ; Moritz, G.
Author_Institution :
Inst. for High Energy Phys., Moscow, Russia
fDate :
6/1/2004 12:00:00 AM
Abstract :
Short models of the UNK superconducting dipole reached a maximum central field of 6.5 T with 0.8 T/s ramp rate. It allows one to consider this magnet design as a basis for development of a superconducting dipole, which will have low heat loss and could be used for the production of fast-cycling magnetic fields, with 6T amplitude and 1 T/s ramp rate, for the new GSI synchrotron SIS-300. The dipole geometry makes it possible to independently suppress both central field and integral field low-order harmonics. The specific shape of the coil end parts enables a decrease of the maximum field in the end parts to the level in the straight part of the coil. Analyzes of magnet AC heating during the SIS-300 cycle, as well as heat transfer to the helium coolant, are presented. The magnet temperature margin and methods to increase it are discussed.
Keywords :
heat transfer; magnetic fields; proton accelerators; storage rings; superconducting magnets; superconductivity; synchrotrons; thermal variables measurement; AC losses; GSI synchrotron SIS-300; UNK superconducting dipole; coil end parts; dipole geometry; fast-cycling magnetic fields; heat loss; heat transfer; liquid helium coolant; low-order harmonics; magnet AC heating; magnet temperature margin; ramp rate; superconducting magnets; Coils; Geometry; Heat transfer; Helium; Magnetic analysis; Magnetic fields; Production; Shape; Superconducting magnets; Synchrotrons; AC losses; magnetic fields; ramp rate; superconducting magnets;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2004.829089
