Finite-Element Analysis of Layered Waveguides for Piezoelectric Surface Waves Using Analytical Solutions for Semi-Infinite Media

Masanori KOSHIBA; Masaya OKADA; Michio SUZUKI

Finite-Element Analysis of Layered Waveguides for Piezoelectric Surface Waves Using Analytical Solutions for Semi-Infinite Media

Masanori KOSHIBA, Masaya OKADA, Michio SUZUKI

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A finite-element analysis is presented for predicting dispersion characteristics of layered waveguides with semi-infinite media for piezoelectric surface waves. This approach utilizes the finite-element method and the analytical solutions. The former is used for the layered interior region except the semi-infinite media, while the latter is used for the semi-infinite media, namely the exterior region. Numerical examples on the dispersion characteristics for the piezoelectric surface waves in a waveguide composed of a metal layer of finite thickness on the (001)-plane of the semi-infinite cubic crystal are given.

Publication: IEICE TRANSACTIONS on transactions Vol.E65-E No.10 pp.579-583

Publication Date: 1982/10/25

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Type of Manuscript: PAPER

Category: Miscellaneous

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Masanori KOSHIBA
Masaya OKADA
Michio SUZUKI

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Masanori KOSHIBA, Masaya OKADA, Michio SUZUKI, "Finite-Element Analysis of Layered Waveguides for Piezoelectric Surface Waves Using Analytical Solutions for Semi-Infinite Media" in IEICE TRANSACTIONS on transactions, vol. E65-E, no. 10, pp. 579-583, October 1982, doi: .
Abstract: A finite-element analysis is presented for predicting dispersion characteristics of layered waveguides with semi-infinite media for piezoelectric surface waves. This approach utilizes the finite-element method and the analytical solutions. The former is used for the layered interior region except the semi-infinite media, while the latter is used for the semi-infinite media, namely the exterior region. Numerical examples on the dispersion characteristics for the piezoelectric surface waves in a waveguide composed of a metal layer of finite thickness on the (001)-plane of the semi-infinite cubic crystal are given.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e65-e_10_579/_p

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@ARTICLE{e65-e_10_579,
author={Masanori KOSHIBA, Masaya OKADA, Michio SUZUKI, },
journal={IEICE TRANSACTIONS on transactions},
title={Finite-Element Analysis of Layered Waveguides for Piezoelectric Surface Waves Using Analytical Solutions for Semi-Infinite Media},
year={1982},
volume={E65-E},
number={10},
pages={579-583},
abstract={A finite-element analysis is presented for predicting dispersion characteristics of layered waveguides with semi-infinite media for piezoelectric surface waves. This approach utilizes the finite-element method and the analytical solutions. The former is used for the layered interior region except the semi-infinite media, while the latter is used for the semi-infinite media, namely the exterior region. Numerical examples on the dispersion characteristics for the piezoelectric surface waves in a waveguide composed of a metal layer of finite thickness on the (001)-plane of the semi-infinite cubic crystal are given.},
keywords={},
doi={},
ISSN={},
month={October},}

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TY - JOUR
TI - Finite-Element Analysis of Layered Waveguides for Piezoelectric Surface Waves Using Analytical Solutions for Semi-Infinite Media
T2 - IEICE TRANSACTIONS on transactions
SP - 579
EP - 583
AU - Masanori KOSHIBA
AU - Masaya OKADA
AU - Michio SUZUKI
PY - 1982
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E65-E
IS - 10
JA - IEICE TRANSACTIONS on transactions
Y1 - October 1982
AB - A finite-element analysis is presented for predicting dispersion characteristics of layered waveguides with semi-infinite media for piezoelectric surface waves. This approach utilizes the finite-element method and the analytical solutions. The former is used for the layered interior region except the semi-infinite media, while the latter is used for the semi-infinite media, namely the exterior region. Numerical examples on the dispersion characteristics for the piezoelectric surface waves in a waveguide composed of a metal layer of finite thickness on the (001)-plane of the semi-infinite cubic crystal are given.
ER -