TfP210. Thin-film ZnO ultrasonic transducer arrays for operation at 100 MHz

Thin-film ZnO ultrasonic transducer arrays for operation at 100 MHz were developed and evaluated. Epitaxial, high acoustic quality ZnO film layers of 10 μm thickness could be produced by sputter deposition on well (111)-oriented gold films with chromium sublayers evaporated on (0001) sapphire. Using...

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Veröffentlicht in:	Ferroelectrics 1992-09, Vol.134 (1), p.325-330
Hauptverfasser:	Ito, Yukio, Kushida, Keiko, Kanda, Hiroshi, Takeuchi, Hiroshi, Sugawara, Kazuhiro, Onozato, Harumasa
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Sprache:	eng
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container_title	Ferroelectrics
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creator	Ito, Yukio Kushida, Keiko Kanda, Hiroshi Takeuchi, Hiroshi Sugawara, Kazuhiro Onozato, Harumasa
description	Thin-film ZnO ultrasonic transducer arrays for operation at 100 MHz were developed and evaluated. Epitaxial, high acoustic quality ZnO film layers of 10 μm thickness could be produced by sputter deposition on well (111)-oriented gold films with chromium sublayers evaporated on (0001) sapphire. Using a photoresist etching mask of the desired pattern, the upper Au/Cr electrode and subsequent ZnO film were etched to form grooves separating the multi-layered film into array elements with a 100 μm pitch. It was found that the ultrasound beam in the azimuth plane for a 32-element array could be electronically focused in the 100 MHz range to obtain a half-amplitude width of 60 μm at the focal depth in water. This value reasonably agrees with the theoretically calculated value.
doi_str_mv	10.1080/00150199208015607
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title	TfP210. Thin-film ZnO ultrasonic transducer arrays for operation at 100 MHz
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