Amplitude noise spectrum of a lock-in amplifier: application to microcantilever noise measurements

Ruppert, Micahel G.; Bartlett, Nathan J.; Yong, Yuen K.; Fleming, Andrew J.

Title: Amplitude noise spectrum of a lock-in amplifier: application to microcantilever noise measurements
Creator: Ruppert, Micahel G.; Bartlett, Nathan J.; Yong, Yuen K.; Fleming, Andrew J.
Relation: Sensors and Actuators A: Physical Vol. 312, Issue 1 September 2020, no. 112092
Publisher Link: http://dx.doi.org/10.1016/j.sna.2020.112092
Publisher: Elsevier
Resource Type: journal article
Date: 2020
Description: The lock-in amplifier is a crucial component in many applications requiring high-resolution displacement sensing; it's purpose is to estimate the amplitude and phase of a periodic signal, potentially corrupted by noise, at a frequency determined by a reference signal. Where the noise can be approximated by a stationary Gaussian process, such as thermal force noise and electronic sensor noise, this article derives the amplitude noise spectral density of the lock-in-amplifier output. The proposed method is demonstrated by predicting the demodulated noise spectrum of a microcantilever for dynamic-mode atomic force microscopy to determine the cantilever on-resonance thermal noise, the cantilever tracking bandwidth and the electronic noise floor. The estimates are shown to closely match experimental results over a wide range of operating conditions.
Subject: lock-in amplifier; demodulation; atomic force microscopy; estimation; noise spectral density; thermal noise
Identifier: http://hdl.handle.net/1959.13/1426876
Identifier: uon:38483
Identifier: ISSN:0924-4247
Language: eng
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