Abstract
Magneto-dielectric materials with matched permeability and permittivity have significant advantages for miniaturization and efficiency improvement of antennas. In this study, we adopted the Z-type hexaferrites in series (Ba0.5Sr0.5)3Co2Fe24O41+xSnO2 (where x=0, 0.1, 0.2, 0.4, and 0.6wt%) to produce the magneto-dielectric material. It was found that moderate SnO2 could obviously enhance mass transfer and densification of the ferrites, while there was no significant increase in grain size, which favored to obtain low magnetic and dielectric losses. However, excessive SnO2 led to the appearance of Co2W phase and slight decrease of sintered density. The samples with 0.1 and 0.2wt% SnO2 could obtain relatively high refractive index with real permeability and permittivity around 15. And the former presented the lowest magnetic and dielectric losses; the latter presented the best matched permeability and permittivity. Both of them are suitable for applications of antenna miniaturization between 3 and 300MHz (HF and VHF bands).
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