A10.8Sc0.2N S1 Lamb波谐振器的优化

2021 IEEE 16th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) Pub Date : 2021-04-25 DOI:10.1109/NEMS51815.2021.9451451

Shuai Shao, Zhifang Luo, Tao Wu

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引用次数: 3

摘要

我们演示了基于a10.8 sc0.2 n的S1 Lamb波谐振器的优化设计。S1模态相速度超过20000 m/s, Sc掺杂增强AIN压电特性的机电耦合系数可以达到7%以上。为了利用厚度/λ (h/λ)小于0.3的高相速度区域，利用双idt电极结构可以获得干净的光谱响应。电极覆盖率能显著抑制杂散模式，采用20%的电极覆盖率设计可实现高阶模自由共振。虽然在AIScN薄膜中掺杂sc会导致相速度的轻微降低，但机电耦合系数的显著提高为高频和大带宽应用提供了潜力。

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Optimization of S1 Lamb wave resonators with A10.8Sc0.2N

We demonstrate the optimized design of A10.8Sc0.2N-based S1 Lamb wave resonators. The S1 mode shows a phase velocity of over 20,000 m/s, and an electromechanical coupling factor of over 7% can be achieved using the enhancement of the AIN piezoelectric characteristics by Sc doping. To exploit the high phase velocity region with thickness/lambda (h/λ) less than 0.3, a clean spectral response can be obtained by utilizing the double-IDT electrode configuration. The electrode coverage can significantly suppress the spurious modes, and high order modes free resonance has been achieved by utilizing 20% electrode coverage design. Although Sc-doping in AIScN film causes a slight decrease in phase velocity, significant enhancement of the electromechanical coupling coefficient provides potential for high frequency and large bandwidth applications.

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2021 IEEE 16th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS)

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