In this work, a simple and practical distributed-circuit model is rigorously carried out for schematizing wave propagation in transversely magnetized ferrites. Through this suitable transmission-line formalism, a very advantageous extension of the transverse resonance technique is also proved possible. Thus, a strong simplification is achieved as regards the electromagnetic analysis of a variety of important nonreciprocal devices employing waveguides partially filled with ferrite slabs. The relevant characteristic eigenvalue equations are easily obtained, the mismatching effects of longitudinal discontinuities are also simply quantifiable, and the procedures for deriving the Green's functions are directly applicable, making use of the network formalism.
A convenient transmission-line formulation for wave propagation in typical ferrite structures / C., Di Nallo; Frezza, Fabrizio; Galli, Alessandro; Gerosa, Giorgio. - In: IEEE TRANSACTIONS ON MAGNETICS. - ISSN 0018-9464. - 32:4 PART 2(1996), pp. 3228-3236. [10.1109/20.508386]
A convenient transmission-line formulation for wave propagation in typical ferrite structures
FREZZA, Fabrizio;GALLI, Alessandro;GEROSA, Giorgio
1996
Abstract
In this work, a simple and practical distributed-circuit model is rigorously carried out for schematizing wave propagation in transversely magnetized ferrites. Through this suitable transmission-line formalism, a very advantageous extension of the transverse resonance technique is also proved possible. Thus, a strong simplification is achieved as regards the electromagnetic analysis of a variety of important nonreciprocal devices employing waveguides partially filled with ferrite slabs. The relevant characteristic eigenvalue equations are easily obtained, the mismatching effects of longitudinal discontinuities are also simply quantifiable, and the procedures for deriving the Green's functions are directly applicable, making use of the network formalism.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
