Physics – Classical Physics
Scientific paper
2006-03-15
IEEE Trans. Antennas Propag., vol. 54, no 11, pt. 2, pp. 3391-3399, 2006.
Physics
Classical Physics
19 pages, 7 figures, submitted to IEEE Trans. Antennas Propagat
Scientific paper
10.1109/TAP.2006.884303
In the present paper we discuss antenna miniaturization using magneto-dielectric substrates. Recent results found in the literature reveal that advantages over conventional dielectric substrates can only be achieved if natural magnetic inclusions are embedded into the substrate. This observation is revised and the physical background is clarified. We present a detailed discussion concerning magnetic materials available in the microwave regime and containing natural magnetic constituents. The effects of magnetic dispersion and loss are studied: constraints on the microwave permeability are used to estimate the effect of magnetic substrates on the achievable impedance bandwidth. Microwave composites filled with thin ferromagnetic films are considered as a prospective antenna substrate. We calculate the impedance bandwidth for a $\lambda/2$-patch antenna loaded with the proposed substrate, and challenge the results against those obtained with conventional dielectric substrates. It is shown that the radiation quality factor is strongly minimized with the proposed substrate even in the presence of realistic losses. Estimates for the radiation efficiency are given as a function of the magnetic loss factor.
Ikonen Pekka
Osipov Alexey
Rozanov Konstantin
Tretyakov Sergei
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