Development of an Automated Phase-Shifting Interferometer Using a Homemade Liquid-Crystal Phase Shifter

Development of an Automated Phase-Shifting Interferometer Using a Homemade Liquid-Crystal Phase Shifter

In this paper, an automatic phase-shifting interferometer has been developed using a homemade liquid-crystal phase shifter, which demonstrates a low-cost, fully automated technical solution for measuring the phase information of optical waves in devices. Conventional phase-shifting interferometers u...

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Bibliographic Details
Main Authors: Zhenghao Song, Lin Xu, Jing Wang, Xitong Liang, Jun Dai
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Photonics
Subjects:
phase-shifting interferometer
liquid-crystal phase shifter
automated optical metrology
phase-unwrapping algorithm
Online Access:https://www.mdpi.com/2304-6732/12/7/722
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Summary:In this paper, an automatic phase-shifting interferometer has been developed using a homemade liquid-crystal phase shifter, which demonstrates a low-cost, fully automated technical solution for measuring the phase information of optical waves in devices. Conventional phase-shifting interferometers usually rely on PZT piezoelectric phase shifters, which are complex, require additional half-inverse and half-transparent optics to build the optical path, and are expensive. To overcome these limitations, we used a laboratory-made liquid-crystal waveplate as a phase shifter and integrated it into a Mach–Zehnder phase-shifting interferometer. The system is controlled by an STM32 microcontroller and self-developed measurement software, and it utilizes a four-step phase-shift interferometry algorithm and the CPULSI phase-unwrapping algorithm to achieve automatic phase measurements. Phase test experiments using a standard plano-convex lens and a homemade liquid-crystal grating as test objects demonstrate the feasibility and accuracy of the device by the fact that the measured focal lengths are in good agreement with the nominal values, and the phase distributions of the gratings are also in good agreement with the predefined values. This study validates the potential of liquid-crystal-based phase shifters for low-cost, fully automated optical phase measurements, providing a simpler and cheaper alternative to conventional methods.
ISSN:2304-6732

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