用于传感和传感器应用的高速微机械屈曲监测

2021 21st International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers) Pub Date : 2021-06-20 DOI:10.1109/Transducers50396.2021.9495591

Berke Demiralp, H. S. Pisheh, Berk Kucukoglu, Utku Hatipoglu, M. Hanay

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引用次数: 2

摘要

在微纳米尺度上有效地控制屈曲的数量和方向，为新型驱动和传感器应用开辟了道路。早期的平台可以实现对微观屈曲的完全和非热控制，其时间分辨率仅为40毫秒。在扫描电子显微镜下，我们通过收集二次电子，测量了梁从非屈曲位置开始到屈曲后达到较大变形的屈曲量。线模式用于超快测量，扫描频率为33kHz，位移本底噪声为40pm/√Hz。此外，通过进一步减小器件尺寸，与同类平台相比，屈曲阈值电压降低了三倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Monitoring Micromechanical Buckling at High-Speed for Sensing and Transducer Applications

Controlling the amount and direction of buckling at micro- and nano-scale efficiently opens up avenues for novel actuation and sensor applications. Earlier platforms that can achieve a full and non-thermal control of microscopic buckling operated only with a time resolution of 40 ms. Here, we have measured the buckling amount of a beam starting from unbuckled position and reaching to large post-buckling deformations by collecting secondary electrons under scanning electron microscope. Line mode is used for ultrafast measurements with 33kHz scan frequency, and a displacement noise floor of 40pm/√Hz was obtained. Moreover, by further reduction in the device dimensions, the buckling threshold voltage was reduced by a factor of three compared to similar platforms.

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2021 21st International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers)

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