13 August 2019 Phase analysis error reduction in the Fourier transform method using a virtual interferogram
Hidemitsu Toba, Zhiqiang Liu, Saori Udagawa, Naoki Fujiwara, Shigeru Nakayama, Takashi Gemma, Mitsuo Takeda
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Abstract

We propose a method for reducing artifactual phase errors inherent to the Fourier transform method (FTM) for fringe analysis. The phase obtained by the FTM is subject to ripple errors at the boundary edges of the fringe pattern where fringes become discontinuous. We note that these artifactual phase errors are found to have certain systematic relations to the form of the phase, amplitude, and background intensity distributions, which can be modeled by low-order polynomials, such as Zernike polynomials, in many cases of practical interest. Based on this observation, we estimate the systematic ripple errors by analyzing a virtual interferogram that is numerically created for a fringe model with known phase, amplitude, and background intensity distributions. Starting from a rough initial guess, the virtual interferogram is sequentially improved by an iterative algorithm, and the estimated errors are finally subtracted from the experimental data. We present the results of simulations and experiments that demonstrate the validity of the proposed method.

© 2019 Society of Photo-Optical Instrumentation Engineers (SPIE) 0091-3286/2019/$28.00 © 2019 SPIE
Hidemitsu Toba, Zhiqiang Liu, Saori Udagawa, Naoki Fujiwara, Shigeru Nakayama, Takashi Gemma, and Mitsuo Takeda "Phase analysis error reduction in the Fourier transform method using a virtual interferogram," Optical Engineering 58(8), 084103 (13 August 2019). https://doi.org/10.1117/1.OE.58.8.084103
Received: 5 June 2019; Accepted: 23 July 2019; Published: 13 August 2019
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CITATIONS
Cited by 2 scholarly publications.
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KEYWORDS
Error analysis

Fourier transforms

Fringe analysis

Zernike polynomials

Linear filtering

Interferometers

Optical engineering

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