几何优化AlN轮廓模谐振器的参数激励

Ruochen Lu, A. Gao, S. Gong
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引用次数: 5

摘要

本文报道了在几何优化的氮化铝(AlN)轮廓模谐振器(CMRs)中首次观测到参数激发。参数激励AlN cmr的概念利用了这样一个事实,即沿横向和纵向的外延模振动的谐振频率都可以由谐振腔的尺寸决定。因此,通过几何优化横向尺寸,可以在f0和2f0分别设计双共振,用于输入参数激励和输出基本振荡。在工作中,参数激励通过拉伸结构周期性地调制AlN压电薄膜的刚度常数,放大了f0处的正交振荡。实验结果表明,参数激发共振的质量因子(Q)从50提高到2708。经过进一步的缩放和优化,预计这种类型的器件将导致GHz低噪声频率源和纳米机电逻辑的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Parametric excitation in geometrically optimized AlN contour mode resonators
This work reports the first observation of parametric excitation in geometrically optimized Aluminum Nitride (AlN) contour mode resonators (CMRs). The concept of parametric excited AlN CMRs harnesses the fact that the resonant frequencies of extensional mode vibrations along transverse and longitudinal directions can both be determined by resonator dimensions. Therefore, by geometrically optimizing lateral dimensions, dual resonances can be engineered at f0 and 2f0 respectively for inputting parametric excitation and outputting fundamental oscillations. In operation, the parametric excitation amplifies an orthogonal oscillation at f0 by periodically modulating the stiffness constants of AlN piezoelectric thin film via straining the structure. The experimental results have shown quality factor (Q) enhancement from 50 ot 2708 for a parametrically excited resonance. Upon further scaling and optimizations, it is anticipated that this type of devices will lead to the development of GHz low noise frequency sources and nano-electro-mechanical logic.
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