Superconducting Combined Function Magnets

Abstract

Superconducting accelerators and storage rings, presently under construction or in the design phase, are based on separate dipole and quadrupole magnets. It is here suggested that a hybrid lattice configuration consisting of dipoles and combined function gradient magnets would (1) reduce the number of magnet units and their total cost and (2) increase the filling factor and thus the energy at a given field. Coil cross sections are presented for the example of the Brookhaven Colliding Beam Accelerator. An asymmetric two-layer cable gradient magnet would have transfer functions of 10.42 G/A and 0.628 G cm-1/A versus 15.77 G/A and 2.03 G cm-1/A of the present separate dipoles and quadrupoles.