CONTROL OF FIELD UNIFORMITY FOR A LARGE SUPERCONDUCTING STORAGE-RING MAGNET

A 1.45 Tesla, 14.2 meter diameter ''superferric'' magnet is in an adva nced stage of construction at BNL. This magnet will be used to store m uons for a planned ultra-precise measurement of their anomalous magnet ic moment g-2. This measurement requires a magnetic field uniformity o f 1 PPM with a knowledge of the field over the muon orbits to 0.1 PPM. The methods built into the design to produce ultra-high field uniform ity will be described, Large deviations from the ideal circularly symm etric uniform shape of the iron nux path are required to accommodate t ransfer lines and superconducting current leads, as well as apparatus for beam injection, Shimming methods to correct for the perturbations due to these large holes will be presented. The pole pieces consist of 36 closely fitting 10 degrees are sections butted together to produce a very good approximation to a continuous 360 degrees ring magnet. Ho wever, in the case of a possible quench of the superconducting coils, significant eddy currents will be induced which will circulate within the confines of each 10 degrees pole piece. At the great precision req uired, these eddy currents may leave very small but significant aberra tions in the field even after they decay away, because of slight chang es in the orientation of the magnetization. Surface coil possibilities to correct for this effect will be described.