Title :
Superconducting Magnets for Ultra Light and Magnetically Shielded, Compact Cyclotrons for Medical, Scientific, and Security Applications
Author :
Radovinsky, A. ; Minervini, Joseph V. ; Miller, C.E. ; Bromberg, Leslie ; Michael, Philip C. ; Maggiore, Manfredi
Author_Institution :
Plasma Sci. & Fusion Center, MIT, Cambridge, MA, USA
Abstract :
We show that multiple sets of superconducting coils can be used to generate the magnetic field profile required in a synchrocyclotron, replacing the ferromagnetic pole pieces typically used in these machines. Coil number, location, and current are adjusted to produce the required field for particle acceleration. Superconducting coils are likewise used to magnetically shield the device, eliminating the need for a ferromagnetic return yoke or ferromagnetic shields. The results demonstrate several significant advantages for a design that eliminates the iron yoke and poles and relies instead on high performance superconducting coils for local field shaping and for magnetic shielding.
Keywords :
magnetic shielding; superconducting coils; superconducting magnets; synchrocyclotrons; coil number; high performance superconducting coils; local field shaping; magnetic field profile; medical application; particle acceleration; scientific application; security application; superconducting magnets; synchrocyclotron; ultralight magnetically shielded compact cyclotrons; Coils; Cyclotrons; Iron; Magnetic flux; Magnetic noise; Magnetic shielding; Superconducting magnets; Cyclotrons; magnetic shielding; particle accelerators; superconducting coils;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2013.2287853
