Beam Steering of Leaky Wave Radiation from Nonreciprocal Phase-Shift Composite Right/Left Handed Transmission Lines
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概要
- 論文の詳細を見る
Beam steering of leaky wave radiation from a nonreciprocal composite right/left handed transmission line with a ferrite substrate is proposed. The nonreciprocal phase constants of the line were tuned by changing the applied DC magnetic field normal to the ferrite substrate. In the numerical simulation and the experiment, the nonreciprocal phase characteristics and leaky wave radiation are investigated for the ferrite substrate with the magnetization not only in the saturated region, but also in the unsaturated region. The numerical simulation results are in good agreement with the measurement. It is confirmed that the beam directions of the obliquely unidirectional leaky wave radiation for two different power directions are continuously tunable.
- (社)電子情報通信学会の論文
- 2010-07-01
著者
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Ueda Tetsuya
Kyoto Inst. Of Technol. Kyoto‐shi Jpn
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Akiyama Masahiro
Kyoto Institute Of Technology
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Horikawa Ken
Kyoto Institute Of Technology
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Ueda Tetsuya
Kyoto Institute Of Technology
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- Leaky Wave Antenna Based on Evanescent-Mode Left-Handed Transmission Lines Composed of a Cut-Off Parallel-Plate Waveguide Loaded with Dielectric Resonators(Antennas/Systems,Microwave and Millimeter-Wave Technology)
- Left-Handed Transmission Characteristics of Rectangular Waveguides Periodically Filled With Ferrite
- Beam Steering of Leaky Wave Radiation from Nonreciprocal Phase-Shift Composite Right/Left Handed Transmission Lines