The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Un guide d'onde courbé efficace et un séparateur de puissance optique avec un résonateur construit par un guide d'onde plasmonique métal-diélectrique-métal ont été analysés. La méthode de solution est la méthode du domaine temporel par différences finies (FD-TD) avec la méthode de convolution récursive linéaire par morceaux (PLRC). Le résonateur peut être réalisé en utilisant une inadaptation d'impédance au niveau de la connexion entre un guide d'ondes étroit et un guide d'ondes d'entrée/sortie. Les résultats numériques pour le guide d'ondes courbé montrent que les bandes de transmission peuvent être contrôlées en ajustant la longueur du guide d'ondes étroit. Nous avons également montré que la puissance optique du séparateur de puissance est entièrement distribuée dans le guide d'onde de sortie à la longueur d'onde de résonance et que son rapport de distribution peut être contrôlé.
Yoshihiro NAKA
University of Miyazaki
Masahiko NISHIMOTO
Kumamoto University
Mitsuhiro YOKOTA
University of Miyazaki
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Yoshihiro NAKA, Masahiko NISHIMOTO, Mitsuhiro YOKOTA, "Analysis of Optical Resonator Constructed by Two-Dimensional MDM Plasmonic Waveguide" in IEICE TRANSACTIONS on Electronics,
vol. E106-C, no. 3, pp. 103-106, March 2023, doi: 10.1587/transele.2022ECS6004.
Abstract: An efficient bent waveguide and an optical power splitter with a resonator constructed by a metal-dielectric-metal plasmonic waveguide have been analyzed. The method of solution is the finite difference time domain (FD-TD) method with the piecewise linear recursive convolution (PLRC) method. The resonator can be realized by utilizing impedance mismatch at the connection between a narrow waveguide and an input/output waveguide. Numerical results for the bent waveguide show that transmission bands can be controlled by adjusting the length of the narrow waveguide. We have also shown that the optical power of the power splitter is entirely distributed into the output waveguide at the resonant wavelength and its distribution ratio can be controlled.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/transele.2022ECS6004/_p
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@ARTICLE{e106-c_3_103,
author={Yoshihiro NAKA, Masahiko NISHIMOTO, Mitsuhiro YOKOTA, },
journal={IEICE TRANSACTIONS on Electronics},
title={Analysis of Optical Resonator Constructed by Two-Dimensional MDM Plasmonic Waveguide},
year={2023},
volume={E106-C},
number={3},
pages={103-106},
abstract={An efficient bent waveguide and an optical power splitter with a resonator constructed by a metal-dielectric-metal plasmonic waveguide have been analyzed. The method of solution is the finite difference time domain (FD-TD) method with the piecewise linear recursive convolution (PLRC) method. The resonator can be realized by utilizing impedance mismatch at the connection between a narrow waveguide and an input/output waveguide. Numerical results for the bent waveguide show that transmission bands can be controlled by adjusting the length of the narrow waveguide. We have also shown that the optical power of the power splitter is entirely distributed into the output waveguide at the resonant wavelength and its distribution ratio can be controlled.},
keywords={},
doi={10.1587/transele.2022ECS6004},
ISSN={1745-1353},
month={March},}
Copier
TY - JOUR
TI - Analysis of Optical Resonator Constructed by Two-Dimensional MDM Plasmonic Waveguide
T2 - IEICE TRANSACTIONS on Electronics
SP - 103
EP - 106
AU - Yoshihiro NAKA
AU - Masahiko NISHIMOTO
AU - Mitsuhiro YOKOTA
PY - 2023
DO - 10.1587/transele.2022ECS6004
JO - IEICE TRANSACTIONS on Electronics
SN - 1745-1353
VL - E106-C
IS - 3
JA - IEICE TRANSACTIONS on Electronics
Y1 - March 2023
AB - An efficient bent waveguide and an optical power splitter with a resonator constructed by a metal-dielectric-metal plasmonic waveguide have been analyzed. The method of solution is the finite difference time domain (FD-TD) method with the piecewise linear recursive convolution (PLRC) method. The resonator can be realized by utilizing impedance mismatch at the connection between a narrow waveguide and an input/output waveguide. Numerical results for the bent waveguide show that transmission bands can be controlled by adjusting the length of the narrow waveguide. We have also shown that the optical power of the power splitter is entirely distributed into the output waveguide at the resonant wavelength and its distribution ratio can be controlled.
ER -