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应用于原子力显微镜的纳米机械谐振器热噪声谱最小二乘拟合中的不确定性。

Uncertainty in least-squares fits to the thermal noise spectra of nanomechanical resonators with applications to the atomic force microscope.

作者信息

Sader John E, Yousefi Morteza, Friend James R

机构信息

Department of Mathematics and Statistics, The University of Melbourne, Victoria 3010, Australia.

MicroNanophysics Research Laboratory, RMIT University, Melbourne, Victoria 3001, Australia.

出版信息

Rev Sci Instrum. 2014 Feb;85(2):025104. doi: 10.1063/1.4864086.

Abstract

Thermal noise spectra of nanomechanical resonators are used widely to characterize their physical properties. These spectra typically exhibit a Lorentzian response, with additional white noise due to extraneous processes. Least-squares fits of these measurements enable extraction of key parameters of the resonator, including its resonant frequency, quality factor, and stiffness. Here, we present general formulas for the uncertainties in these fit parameters due to sampling noise inherent in all thermal noise spectra. Good agreement with Monte Carlo simulation of synthetic data and measurements of an Atomic Force Microscope (AFM) cantilever is demonstrated. These formulas enable robust interpretation of thermal noise spectra measurements commonly performed in the AFM and adaptive control of fitting procedures with specified tolerances.

摘要

纳米机械谐振器的热噪声谱被广泛用于表征其物理特性。这些谱通常呈现出洛伦兹响应,并伴有由于外部过程产生的额外白噪声。对这些测量结果进行最小二乘拟合能够提取谐振器的关键参数,包括其共振频率、品质因数和刚度。在此,我们给出了由于所有热噪声谱中固有的采样噪声导致的这些拟合参数不确定性的通用公式。通过与合成数据的蒙特卡罗模拟以及原子力显微镜(AFM)悬臂梁的测量结果进行比较,证明了良好的一致性。这些公式能够对AFM中常见的热噪声谱测量进行可靠的解释,并对具有指定公差的拟合程序进行自适应控制。

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