干涉测量
干扰(通信)
振动
相(物质)
干涉显微镜
振幅
光学
传递函数
傅里叶变换
噪音(视频)
功能(生物学)
物理
计算机科学
声学
电信
工程类
计算机视觉
量子力学
频道(广播)
电气工程
进化生物学
图像(数学)
生物
标识
DOI:10.1364/josaa.12.000354
摘要
Unexpected mechanical vibrations can significantly degrade the otherwise high accuracy of phase-shifting interferometry. Fourier analysis of phase-shift algorithms is shown to provide the analytical means of predicting measurement errors as a function of the frequency, the phase, and the amplitude of vibrations. The results of this analysis are concisely represented by a phase-error transfer function, which may be multiplied by the noise spectrum to predict the response of an interferometer to various forms of vibration. Analytical forms for the phase error are derived for several well-known algorithms, and the results are supported by numerical simulations and experiments with an interference microscope.
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