压阻式双箝位(111)-Si纳米梁谐振响应的实验研究

2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2007-04-23 DOI:10.1109/NEMS.2007.352142

Quanbin Zhao, J. Jiao, Heng Yang, Fei Duan, Zixin Lin, Tie Li, Ying Zhang, Yuelin Wang

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引用次数: 1

摘要

本文研究了压阻式双箝位硅纳米梁的谐振响应。采用传统的DRIE和KOH各向异性刻蚀技术，在掺杂(111)Si衬底上制备了242 nm厚的纳米光束。利用高能氩离子轰击纳米束顶部的选定区域，破坏纳米束沿厚度方向的对称性，破坏纳米束顶部原子键的部分断裂。下面未受轰击的层可以保持其压阻性。采用局域压敏电阻研究了双箝位硅纳米梁在空气和真空中的谐振响应。得到了谐振频率和q因子。已经观察到低频移。讨论了原子结构损坏导致的能量耗散，以解释意外的低Q因子。

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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Experimental Study on Resonant Response of Piezoresistive Double-clamped (111)-Si Nano-beam

In this work, the resonant response of piezoresistive double-clamped silicon nano-beam has been investigated. Conventional DRIE and KOH anisotropic etching were used to fabricate the 242 nm thick nano beam from doped (111) Si substrate. High energy argon ion bombardment was then applied on selected area of the top side of the nano beam to destroy the symmetry along thickness direction as atomic bonds were partly broken at top layer. The unbombarded layer underneath could maintain its piezoresistivity. The localized piezoresistor was used to study the resonant response of the double-clamped Si nanobeam in air and vacuum. The resonant frequency and Q-factor were obtained. Frequency shift to low end has been observed. The energy dissipation led by damaged atomic structure is discussed to explain the unexpected low Q factor.

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2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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