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Description
This paper presents preliminary steps for the shimming of IRANCYC-10 cyclotron magnet. Shimming, as a crucial step in magnet fabrication, significantly contributes to improving particle acceleration quality, beam stability, and the precision of output energy. Since some shimming procedures—such as pole edge trimming—are irreversible, they require a high degree of accuracy. In this study, the required adjustments for magnetic field corrections are predicted using a matrix method based on mathematical modeling, alongside an experimental approach. A comprehensive comparison of these two methods is provided, highlighting their respective limitations and advantages. The findings of this research offer valuable guidance for optimizing and designing future AVF cyclotron magnets, contributing to their improved performance.