Title :
A superconducting iron-dominated quadrupole for CEBAF
Author :
Harwood, L.H. ; Lassiter, S. ; Tuzel, W.
Author_Institution :
Continuous Electron Beam Accel. Facility, Newport News, VA, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
The current design for the high-resolution spectrometers at CEBAF (Continuous Electron Beam Accelerator Facility) requires a front quadrupole that has a gradient × length of 6.8 T with a `good field´ aperture (1×10-3 uniformity in gradient) of 16 cm radius. A room-temperature design was found too power hungry and interferred with the beam. Engineering and construction of a small cos 2θ magnet was considered to be quite expensive. A Panofsky design was not considered due to the extreme sensitivity of the field quality to errors in conductor placement. A conformal mapping of a window-frame dipole into quadrupole geometry worked well. A conceptual design has been developed with the following characteristics: physical length (total)=1.2 ; iron length=1.1 m; iron outer dimensions=54 cm×80 cm; peak gradient=6.2 T/m; pole radius=20 cm; `good field´ radius=16 cm; coil peak field=1.5 T; conductors=1 mm diameter; Cu/NbTi=7:1; current=400 A; turns=250/quadrant; and stored energy=50 kJ
Keywords :
electron spectrometers; spectrometer components and accessories; superconducting magnets; 1.5 T; 400 A; 50 kJ; 6.8 T; CEBAF; Continuous Electron Beam Accelerator Facility; Cu-NbTi; NbTi; coil peak field; conformal mapping; current; good field aperture; gradient uniformity; high-resolution spectrometers; peak gradient; pole radius; stored energy; superconducting iron-dominated quadrupole; window-frame dipole; Apertures; Conductors; Conformal mapping; Electron accelerators; Electron beams; Iron; Power engineering and energy; Spectroscopy; Structural beams; Superconducting magnets;
Journal_Title :
Magnetics, IEEE Transactions on
