Creation of Materials Based on Novel Principles Utilizing an Interaction between Magnetism and Electromagnetic Waves —Dynamic Permeability of Magnetoplumbite-structured Ferrite with an In-plane Magnetic Anisotropy Through the Controlled-particle Orientations—

• Main Authors: Yukiko YASUKAWA, Chitose TAKAHASHI
• Format: Article
• Language: English
• Published: The Electrochemical Society of Japan 2020-11-01
• Series: Electrochemistry
• Subjects: magnetoplumbite-structured ferrite; dynamic permeability behaviors; high-frequency electromagnetic waves; short-circuited microstrip line method
• Online Access: https://www.jstage.jst.go.jp/article/electrochemistry/88/6/88_20-00096/_pdf/-char/en

We prepared a high-quality magnetic BaCoTiFe10O19 ferrite-based composite sheet and BaCoTiFe10O19 thin films exhibiting in-plane magnetic anisotropy. In-plane magnetic anisotropy was realized by controlling particle orientation to achieve high-resonance frequency values. The dynamic permeability of the samples in the GHz-frequency region was evaluated by the short-circuited microstripline method up to 30 GHz. Controlling the propagation of electromagnetic waves with GHz frequencies is extremely difficult. Nevertheless, the ferromagnetic resonance phenomena were observed, and the obtained sheet showed a resonance frequency value of approximately 4 GHz. However, the intrinsic ferromagnetic resonance behaviors were not elucidated for the thin films. The obtained BaCoTiFe10O19 powder/polymer composite sheet and BaCoTiFe10O19 thin films may have the potential for use at GHz frequencies and as anisotropic-electromagnetic wave suppression materials.