Substructure Characteristic Modes: Theory and Computation

Substructure characteristic modes are reformulated using a scattering matrix-based approach, allowing for versatile applications in antenna design and computational electromagnetics.

This article explores the theory and computation of substructure characteristic modes using a scattering matrix-based formulation. It introduces a novel approach that broadens the application scope to include arbitrary electromagnetic solvers, enabling advanced applications with arbitrary material distributions. The content is organized into sections discussing the introduction, scattering formulation, equivalence between different methods, and practical applications. The paper concludes by highlighting the potential impact of background objects on modal performance and the efficiency of the proposed method in analyzing antennas and scatterers in complex material environments.

"Manuscript received March 5, 2024; revised March 5, 2024." "Color versions of one or more of the figures in this paper are available online at http://ieeexplore.ieee.org." "The dimensions read ℓ = 120 mm, w = 60 mm, h = 15 mm, and d = 30 mm."

"Characteristic mode decomposition plays an important role in the design of antennas." "The scattering formulation opens a variety of new subregion scenarios unavailable within previous formulations."