Xinyu Miao scite author profile

Xinyu Miao

5Publications

8Citation Statements Received

0Citation Statements Given

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109

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China Jiliang University, Nanjing University of Science and Technology, Hebei University

Publications

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Residue calibrated least-squares unwrapping algorithm for noisy and steep phase maps

Cong

Miao

et al. 2022

Opt. Express

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This work proposes a robust unwrapping algorithm for noisy and steep phase maps based on the residue calibrated least-squares method. The proposed algorithm calculates and calibrates the residues in the derivative maps to get a noise-free Poisson equation. Moreover, it compensates for the residuals between the wrapped and unwrapped phase maps iteratively to eliminate approximation errors and the smoothing effect of the least-squares method. The robustness and efficiency of the proposed algorithm are validated by unwrapping simulated and experimentally wrapped phase maps. Compared with the other three typical algorithms, the proposed algorithm has the most effective performance in noisy and steep phase unwrapping, providing a reliable alternative for practical applications.

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Optical phase-shifting methods based on low coherence laser for large aperture Fizeau interferometer

Miao

et al. 2021

Optics and Lasers in Engineering

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Modelling and correction for polarization errors of a 600 mm aperture dynamic Fizeau interferometer

Miao¹,

Ma²,

Yu³

et al. 2020

Opt. Express

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The polarization errors of large aperture dynamic interferometers based on the polarization phase shifting method are mainly coming from the effects of imperfect polarized elements and birefringence of large elements. Using the Lissajous ellipse fitting algorithm to correct the influence of the polarized device can effectively eliminate single and double frequency print through errors. We develop a wave plate model for analyzing the birefringence effect, and on this basis, we establish the relationship between the calculated phase and the ideal phase distribution. Experiments are carried out on a 600mm aperture Fizeau interferometer and then compared with the result acquired through the wavelength tuning method. The difference between PV is only 0.002λ.

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Problems on polarization aberrations in large aperture dynamic interferometry based on the polarization phase shifting technique

Miao¹,

Ma²,

Cong³

et al. 2022

Opt. Express

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The polarization based phase shifting method is an effective way for dynamic measurements. However, when this technique is applied to the measurements of large optics, the interferometric results are easily limited by the birefringence of large optics. The birefringence changes the polarization states of reference light and test light, and brings constant polarization aberrations into the measurement results independent of the phase shifting procedure. In this article, the detailed theoretical analysis on the mechanism of polarization aberration is presented. Afterwards, we propose a new interferometric method to determine the birefringence effects by measuring the transmitted wavefronts of the large optics, which are considered as birefringent samples. Theoretical analysis shows that the polarization error in the linearly polarized system can be corrected by two independent measurements with orthogonal polarization states. The phase retardance can be obtained from the wavefront difference of the transmitted wavefronts when switching the polarization states of the incident lights. The birefringence distribution obtained is used to calibrate the polarization aberrations in the measurement result of a homemade large aperture measurement platform and the correction result is compared with the result via the wavelength tuning phase shifting method. The elimination of the polarization aberrations can be observed in the final results.

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Phase unwrapping algorithm for a segmented phase based on iterative pseudo-phase inpainting

wang¹,

Ma²,

Ding³

et al. 2022

Opt. Lett.

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Segmented phase unwrapping is an intractable problem in the phase-shifting technique. To solve the problem, this Letter presents an iterative pseudo-phase inpainting algorithm (IPPI). By means of image inpainting, the IPPI can be used to realize the pseudo-phases connecting each other among these phase islands. The error points in the pseudo-phases can be reduced by iterations of phase inpainting with the assistance of the reference pseudo-phase obtained by introducing the numerical carrier frequency and using the 2D Fourier transform. Compared with other methods, the proposed algorithm does not have to do any processing on the effective area of the wrapped phase, which ensures the authenticity of the result. The simulated and experimental verifications show that the proposed method not only possesses high precision, but also can be applied to a segmented phase with severe noise.

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Xinyu Miao

Residue calibrated least-squares unwrapping algorithm for noisy and steep phase maps

Optical phase-shifting methods based on low coherence laser for large aperture Fizeau interferometer

Modelling and correction for polarization errors of a 600 mm aperture dynamic Fizeau interferometer

Problems on polarization aberrations in large aperture dynamic interferometry based on the polarization phase shifting technique

Phase unwrapping algorithm for a segmented phase based on iterative pseudo-phase inpainting

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