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Frequency response of N-port planar gyromagnetic circuits using the mutual energy-finite element method

Frequency response of N-port planar gyromagnetic circuits using the mutual energy-finite element method

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The finite element method may be used to characterise reciprocal and nonreciprocal planar circuits in conjunction with a Green's function or a mutual energy formulation. While the former method has been used to describe both types of circuit, the latter has only been used so far to describe reciprocal ones. The purpose of the paper is to extend the mutual energy approach to the analysis of gyromagnetic circuits. The solution developed is demonstrated by analysing the operation of a 2-port gyromagnetic dipolar switch using a disk resonator. The results obtained in this manner are in good agreement with the mode matching approach.

Inspec keywords: Green's function methods; network analysis; gyromagnetic effect; strip line circuits; passive networks; finite element analysis; two-port networks; switching circuits; frequency response; resonators

Other keywords: nonreciprocal planar circuits; mutual energy formulation; mode matching; 2-port gyromagnetic dipolar switch; reciprocal planar circuits; N-port planar gyromagnetic circuits; Green's function; mutual energy-finite element method; frequency response; stripline gyromagnetic switch; disk resonator

Subjects: Finite element analysis; Waveguide and microwave transmission line components; General circuit analysis and synthesis methods; Passive filters and other passive networks

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