Extended Depth-range Dual-wavelength Interferometry Based on Iterative Two-step Temporal Phase-unwrapping
Minmin Wang, Canlin Zhou, Shuchun Si, XiaoLei Li, Zhenkun Lei, YanJie, Li

TL;DR
This paper introduces an advanced dual-wavelength interferometry method that extends depth-range and enhances sensitivity by using iterative two-step temporal phase-unwrapping with a least squares approach on phase-shifting interferograms.
Contribution
It proposes a novel extended depth-range dual-wavelength phase-shifting interferometry technique that improves phase unwrapping accuracy and sensitivity over previous methods.
Findings
Demonstrates high precision in simulated experiments
Extends depth-range effectively
Improves sensitivity in phase retrieval
Abstract
Phase retrieval is one of the most challenging processes in many interferometry techniques. To promote the phase retrieval, Xu et. al [X. Xu, Y. Wang, Y. Xu, W. Jin. 2016] proposed a method based on dual-wavelength interferometry. However, the phase-difference brings large noise due to its low sensitivity and signal-to-noise ratio (SNR). Beside, special phase shifts are required in Xu's method. In the light of these problems, an extended depth-range dual-wavelength phase-shifting interferometry is proposed. Firstly, the least squares algorithm is utilized to retrieve the single-wavelength phase from a sequence of N-frame simultaneous phase-shifting dual-wavelength interferograms (SPSDWI) with random phase shifts. Then the phase-difference and phase-sum are calculated from the wrapped phases of single wavelength, and the iterative two-step temporal phase-unwrapping is introduced to…
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