Advanced Numerical Methods in Electromagnetics: Techniques and Applications
Abstract
This research paper provides an in-depth exploration of advanced numerical methods in electromagnetics, including the Finite Difference Time Domain (FDTD), Finite Element Method (FEM), Boundary Element Method (BEM), and Method of Moments (MoM). These methods are essential for solving complex electromagnetic problems that are not feasible with traditional analytical approaches, enabling precise simulations in fields such as telecommunications, biomedical engineering, and electromagnetic compatibility (EMC). The paper discusses the fundamental principles, applications, and computational challenges of each method, highlighting their impact on modern engineering. Future directions are identified, emphasizing the potential of hybrid approaches, machine learning integration, and high-performance computing to address current limitations and expand the scope of these methods. The insights gained underline the critical role of numerical techniques in advancing electromagnetic theory and applications.
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