Abstract
Abstract Controlled nuclear fusion represents a significant solution for future clean energy, with Ion Cyclotron Range of Frequency (ICRF) heating emerging as one of the most promising technologies for heating the fusion plasma. This study primarily presents a self-developed 2D Ion Cyclotron Resonance Antenna Electromagnetic Field Solver (ICRAEMS) code implemented on the MATLAB platform, which solves the electric field wave equation by using the finite element method, establishing Perfectly Matched Layer (PML) boundary conditions, and post-processing electromagnetic field data. This code can be utilized to facilitate the design and optimization processes of antennas for ICRF heating technology. Furthermore, this study examines the electric field distribution and power spectrum associated with various antenna phases to investigate how different antenna configurations affect electromagnetic field propagation and coupling characteristics.
Published Version
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