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A Design Method of Transmission-Type Metasurfaces Using Circuit Synthesis Theory of Microwave Bandpass Filters
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In this paper, we applied the circuit synthesis theory of filters to the design of transmission-type metasurface cells and arbitrarily designed the amplitude and phase of the transmission and reflection by adjusting the resonant frequency and coupling coefficient. In addition, we successfully designed the phase of the unit cell by using the frequency conversion of filter theory. Moreover, we designed a refractive transmission-type metasurface plate with a novel cell structure that reacts to both polarizations. The prototype operated at the desired refraction angle, confirming the design theory.
- Publication
- IEICE TRANSACTIONS on Electronics Vol.E106-C No.11 pp.651-660
- Publication Date
- 2023/11/01
- Publicized
- 2023/05/18
- Online ISSN
- 1745-1353
- DOI
- 10.1587/transele.2023MMI0001
- Type of Manuscript
- Special Section INVITED PAPER (Special Section on Microwave and Millimeter-Wave Technologies)
- Category
Authors
Hiromichi YOSHIKAWA
Kyocera Corporation
Nobuki HIRAMATSU
Kyocera Corporation
Masamichi YONEHARA
Kyocera Corporation
Hisamatsu NAKANO
Hosei University
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Hiromichi YOSHIKAWA, Nobuki HIRAMATSU, Masamichi YONEHARA, Hisamatsu NAKANO, "A Design Method of Transmission-Type Metasurfaces Using Circuit Synthesis Theory of Microwave Bandpass Filters" in IEICE TRANSACTIONS on Electronics,
vol. E106-C, no. 11, pp. 651-660, November 2023, doi: 10.1587/transele.2023MMI0001.
Abstract: In this paper, we applied the circuit synthesis theory of filters to the design of transmission-type metasurface cells and arbitrarily designed the amplitude and phase of the transmission and reflection by adjusting the resonant frequency and coupling coefficient. In addition, we successfully designed the phase of the unit cell by using the frequency conversion of filter theory. Moreover, we designed a refractive transmission-type metasurface plate with a novel cell structure that reacts to both polarizations. The prototype operated at the desired refraction angle, confirming the design theory.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/transele.2023MMI0001/_p
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@ARTICLE{e106-c_11_651,
author={Hiromichi YOSHIKAWA, Nobuki HIRAMATSU, Masamichi YONEHARA, Hisamatsu NAKANO, },
journal={IEICE TRANSACTIONS on Electronics},
title={A Design Method of Transmission-Type Metasurfaces Using Circuit Synthesis Theory of Microwave Bandpass Filters},
year={2023},
volume={E106-C},
number={11},
pages={651-660},
abstract={In this paper, we applied the circuit synthesis theory of filters to the design of transmission-type metasurface cells and arbitrarily designed the amplitude and phase of the transmission and reflection by adjusting the resonant frequency and coupling coefficient. In addition, we successfully designed the phase of the unit cell by using the frequency conversion of filter theory. Moreover, we designed a refractive transmission-type metasurface plate with a novel cell structure that reacts to both polarizations. The prototype operated at the desired refraction angle, confirming the design theory.},
keywords={},
doi={10.1587/transele.2023MMI0001},
ISSN={1745-1353},
month={November},}
Copy
TY - JOUR
TI - A Design Method of Transmission-Type Metasurfaces Using Circuit Synthesis Theory of Microwave Bandpass Filters
T2 - IEICE TRANSACTIONS on Electronics
SP - 651
EP - 660
AU - Hiromichi YOSHIKAWA
AU - Nobuki HIRAMATSU
AU - Masamichi YONEHARA
AU - Hisamatsu NAKANO
PY - 2023
DO - 10.1587/transele.2023MMI0001
JO - IEICE TRANSACTIONS on Electronics
SN - 1745-1353
VL - E106-C
IS - 11
JA - IEICE TRANSACTIONS on Electronics
Y1 - November 2023
AB - In this paper, we applied the circuit synthesis theory of filters to the design of transmission-type metasurface cells and arbitrarily designed the amplitude and phase of the transmission and reflection by adjusting the resonant frequency and coupling coefficient. In addition, we successfully designed the phase of the unit cell by using the frequency conversion of filter theory. Moreover, we designed a refractive transmission-type metasurface plate with a novel cell structure that reacts to both polarizations. The prototype operated at the desired refraction angle, confirming the design theory.
ER -
English
