Speaker
Description
We report the progress of redesigning the septum magnet at the LANSCE Proton Storage Ring (PSR). The septum magnet at the PSR is used for extracting the accumulated 800-MeV proton beams for transport to the target stations. The existing septum magnet uses parallel, planar coils creating a uniform deflecting magnetic field. However, one coil plate co-locates with the septum; this placement results in the coil, witnessing intense radiation dose rates, receiving accumulated damage to the epoxy potting during the PSR operation. The redesigned septum magnet uses a ferritic steel septum, and the coils are positioned farther away from the proton beam pipes. This placement, combined with the adoption of a more radiation-resistant potting epoxy, is expected to reduce the dose rate on the coil pack, correspondingly increasing the operating lifetimes. The magnet pole tips are refined with shim features to provide a wide flat-field region. The mechanical engineering of the yoke components and the supporting structures is underway. Particle tracking simulations of the proton beam deflection in the septum magnet were performed, and the comparison of performance between the existing and the redesigned septum magnets is reported.
Funding Agency
Work supported by the U.S. Department of Energy through the Office of Defense Programs of Los Alamos National Laboratory.
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