Microwave Impedance Control Over a Ferrite Boundary Layer

Hoton How; Carmine Vittoria

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Microwave Impedance Control Over a Ferrite Boundary Layer

机译：铁氧体边界层的微波阻抗控制

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We simulated microwave far-field radiation by using a coaxial cable, inside which a ferrite layer with a ground plane was loaded. The ferrite layer is magnetically biased near ferrimagnetic resonance by a permanent magnet generating a global bias magnetic field inside the ferrite layer. In addition, a magnetic bias coil near the ferrite layer generates a second dc bias magnetic field so as to locally tune the permeability of the ferrite layer. By observing the frequency change in the resonant modes of the cavity formed by the coaxial cable, we can determine the permeability of the ferrite layer. Calculations compare nicely with experiments.

机译：我们使用同轴电缆模拟了微波远场辐射，同轴电缆内部装有带有接地层的铁氧体层。铁氧体层通过在铁氧体层内部产生全局偏置磁场的永磁体在亚铁磁共振附近被磁偏置。另外，在铁氧体层附近的磁偏置线圈产生第二dc偏置磁场，以便局部地调节铁氧体层的磁导率。通过观察同轴电缆形成的腔的谐振模式的频率变化，我们可以确定铁氧体层的磁导率。计算结果与实验结果相吻合。

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来源
《IEEE Transactions on Magnetics》 |2005年第3期|p.1126-1131|共6页
作者
Hoton How; Carmine Vittoria;
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正文语种 eng
中图分类磁性材料、铁氧体;
关键词
Ferrite device; Impedance control; Magnetic permeability; Reflection measurement;

机译：铁氧体器件阻抗控制磁导率反射测量;

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Microwave Impedance Control Over a Ferrite Boundary Layer

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