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Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency
Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency
by Kaneda, Takumi , Ueda, Tetsuya
in Antennas / Circuits / Computer engineering / Design / dual band / Electrical engineering / Leaky waves / Magnetic fields / Metamaterials / Microstrip transmission lines / nonreciprocal circuits / periodic structures / Permeability / Phase shift / phase shifters / Propagation / Transmission lines / unidirectional traveling wave resonators / Velocity / Yttrium-iron garnet
2022
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Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency
by Kaneda, Takumi , Ueda, Tetsuya
in Antennas / Circuits / Computer engineering / Design / dual band / Electrical engineering / Leaky waves / Magnetic fields / Metamaterials / Microstrip transmission lines / nonreciprocal circuits / periodic structures / Permeability / Phase shift / phase shifters / Propagation / Transmission lines / unidirectional traveling wave resonators / Velocity / Yttrium-iron garnet
2022
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Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency
Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency
by Kaneda, Takumi , Ueda, Tetsuya
in Antennas / Circuits / Computer engineering / Design / dual band / Electrical engineering / Leaky waves / Magnetic fields / Metamaterials / Microstrip transmission lines / nonreciprocal circuits / periodic structures / Permeability / Phase shift / phase shifters / Propagation / Transmission lines / unidirectional traveling wave resonators / Velocity / Yttrium-iron garnet
2022

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Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency
Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency
Journal Article

Dual-band composite right/left-handed metamaterial lines with dynamically controllable nonreciprocal phase shift proportional to operating frequency

Kaneda, Takumi,
Ueda, Tetsuya
2022
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Overview
Dual-band composite right/left-handed transmission lines with the nonreciprocal phase shift approximately proportional to the operating frequency are proposed and demonstrated by using normally magnetized ferrite microstrip lines. The nonreciprocal phase shift can be dynamically controlled by changing the externally applied dc magnetic field. Dynamic change in the nonreciprocal phase gradient along the line enables us to realize dual-band and unidirectional beam-scanning leaky-wave antennas without suffering from frequency-dependent change in the beam direction. A prototype nonreciprocal metamaterial line using polycrystalline yttrium iron garnet was fabricated and measured for verification of our basic concept.
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Publisher
De Gruyter,Walter de Gruyter GmbH
Subject

Antennas

/ Circuits

/ Computer engineering

/ Design

/ dual band

/ Electrical engineering

/ Leaky waves

/ Magnetic fields

/ Metamaterials

/ Microstrip transmission lines

/ nonreciprocal circuits

/ periodic structures

/ Permeability

/ Phase shift

/ phase shifters

/ Propagation

/ Transmission lines

/ unidirectional traveling wave resonators

/ Velocity

/ Yttrium-iron garnet

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