基于表面短路和电场应用的MEMS开关的表面声波相位速度控制

J. Kuypers, M. Schmidt, S. Tanaka, M. Esashi
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引用次数: 12

摘要

本文研究了在高耦合压电衬底上制作微机电开关来控制表面声波的相速度。其原理是基于SAW的隐去表面电位与导电开关的相互作用。理论上,在v0和vm给出的范围内调整速度是可能的,即在自由和金属化基板上的声表面波的速度。我们已经在128degYX LiNbO3上实现了高达17.6 m/s(0.44%)的速度调谐。测得最大速度灵敏度δ v/v为15 × 10-3/ v,相灵敏度为700deg/ v。这比电场调谐得到的值大5个数量级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
P0-13 Phase Velocity Control of Surface Acoustic Waves Based on Surface Shorting and Electrical Field Application Using MEMS Switches
We have investigated controlling the phase velocity of a surface acoustic wave (SAW) by a microelectromechanical switch fabricated on a high coupling piezoelectric substrate. The principle is based on the interaction of the evanescent surface potential of the SAW with the conductive switch. In theory tuning of the velocity in the range given by v0 and vm, i.e. the velocity for a SAW on a free and metallized substrate, is possible. We have achieved up to 17.6 m/s (0.44 %) velocity tuning on 128degYX LiNbO3. A maximum velocity sensitivity of Deltav/v of 15times10-3/V and phase sensitivity of 700deg/V was measured. This is five orders of magnitude larger than values obtained for electrical field tuning.
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