Rayleigh waves in nonpolar Al0.7Sc0.3N(112-0) films with enhanced electromechanical coupling and quality factor

Niclas Feil; A. Nair; Vladimir Pashchenko; Lutz  Kirste; Oliver  Ambacher

Rayleigh waves in nonpolar Al0.7Sc0.3N(112-0) films with enhanced electromechanical coupling and quality factor

Niclas Feil, A. Nair, Vladimir Pashchenko, Lutz Kirste, Oliver Ambacher

Piezoelectric Microsystem Technologies (PMT)

Research output: Contribution to journal › Article › peer-review

Abstract

This work reports on the growth of 1 µm nonpolar a-plane Al0.7Sc0.3N(112-0) thin films on an r-plane sapphire Al2O3(11-02) via magnetron sputter epitaxy. The electro-acoustic properties of the film structures were characterized using surface acoustic wave (SAW) resonators. Measured electrical responses were found to be strongly anisotropic in terms of the wave propagation direction. We identified a sagittal polarized Rayleigh wave mode with large coupling ( 3.7%), increased phase velocity ( 4825 m/s), as well as high quality factor (Q > 1000) for SAW propagation along the c-axis [0001] and normalized thicknesses . Finite element method simulations using electro-acoustic properties of Al0.7Sc0.3N obtained from the density functional theory reproduce our experimental results.

Original language	English
Article number	121
Pages (from-to)	191903-1-5
Number of pages	5
Journal	Applied Physics Letters
Volume	121
Issue number	19
Publication status	Published - 7 Nov 2022

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title = "Rayleigh waves in nonpolar Al0.7Sc0.3N(112-0) films with enhanced electromechanical coupling and quality factor",

abstract = "This work reports on the growth of 1 µm nonpolar a-plane Al0.7Sc0.3N(112-0) thin films on an r-plane sapphire Al2O3(11-02) via magnetron sputter epitaxy. The electro-acoustic properties of the film structures were characterized using surface acoustic wave (SAW) resonators. Measured electrical responses were found to be strongly anisotropic in terms of the wave propagation direction. We identified a sagittal polarized Rayleigh wave mode with large coupling ( 3.7%), increased phase velocity ( 4825 m/s), as well as high quality factor (Q > 1000) for SAW propagation along the c-axis [0001] and normalized thicknesses . Finite element method simulations using electro-acoustic properties of Al0.7Sc0.3N obtained from the density functional theory reproduce our experimental results.",

author = "Niclas Feil and A. Nair and Vladimir Pashchenko and Lutz Kirste and Oliver Ambacher",

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language = "English",

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T1 - Rayleigh waves in nonpolar Al0.7Sc0.3N(112-0) films with enhanced electromechanical coupling and quality factor

AU - Feil, Niclas

AU - Nair, A.

AU - Pashchenko, Vladimir

AU - Kirste, Lutz

AU - Ambacher, Oliver

PY - 2022/11/7

Y1 - 2022/11/7

N2 - This work reports on the growth of 1 µm nonpolar a-plane Al0.7Sc0.3N(112-0) thin films on an r-plane sapphire Al2O3(11-02) via magnetron sputter epitaxy. The electro-acoustic properties of the film structures were characterized using surface acoustic wave (SAW) resonators. Measured electrical responses were found to be strongly anisotropic in terms of the wave propagation direction. We identified a sagittal polarized Rayleigh wave mode with large coupling ( 3.7%), increased phase velocity ( 4825 m/s), as well as high quality factor (Q > 1000) for SAW propagation along the c-axis [0001] and normalized thicknesses . Finite element method simulations using electro-acoustic properties of Al0.7Sc0.3N obtained from the density functional theory reproduce our experimental results.

AB - This work reports on the growth of 1 µm nonpolar a-plane Al0.7Sc0.3N(112-0) thin films on an r-plane sapphire Al2O3(11-02) via magnetron sputter epitaxy. The electro-acoustic properties of the film structures were characterized using surface acoustic wave (SAW) resonators. Measured electrical responses were found to be strongly anisotropic in terms of the wave propagation direction. We identified a sagittal polarized Rayleigh wave mode with large coupling ( 3.7%), increased phase velocity ( 4825 m/s), as well as high quality factor (Q > 1000) for SAW propagation along the c-axis [0001] and normalized thicknesses . Finite element method simulations using electro-acoustic properties of Al0.7Sc0.3N obtained from the density functional theory reproduce our experimental results.

M3 - Article

SN - 0003-6951

VL - 121

SP - 191903-1-5

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 19

M1 - 121

ER -

Rayleigh waves in nonpolar Al0.7Sc0.3N(112-0) films with enhanced electromechanical coupling and quality factor

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