通过在傅里叶平面旋转和移位光栅调节双光圈共路干涉仪的相位精度

IF 2 4区物理与天体物理 Q3 OPTICS

Journal of Optics Pub Date : 2023-12-08 DOI:10.1088/2040-8986/ad0dee

Marymar Castillo-Luna, Cruz Meneses-Fabian

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引用次数: 0

摘要

调谐误差限制了移相干涉仪（PSI）的相位提取精度。为了提高这一精度，移相器控制系统必须高度精确，这涉及到高技术、详尽的校准、高成本和持续的维护。本手稿介绍了一种通过旋转和位移双孔共径干涉仪中的光栅来提高傅立叶平面上产生的相位阶跃精度的方法。实验证明，失谐误差和相位提取不确定性都会随着光栅旋转角度的增大而减小。实验实施非常简单，因为它不需要任何复杂的机械系统来提高精度，不需要详尽的校准，也不需要额外的机械和光学装置。采用本方法，只需使用一个低精度致动器，就能非常简单地实现高精度 PSI 方法。本文介绍了理论模型和实验结果，以证明本建议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Adjustable accuracy of phase steps in a double-aperture common-path interferometer by rotating and displacing grating at Fourier plane

Detuning errors limit the accuracy of phase extraction in phase-shifting interferometry (PSI). To improve this accuracy, the systems to control the phase shifter dispositive must be highly accurate, involving high technology, exhaustive calibration, high cost, and constant maintenance. This manuscript presents a method for improving the accuracy of the phase step generated at the Fourier plane by rotating and displacing the grating in a double-aperture common-path interferometer. It is demonstrated that both the detuning errors and the phase extraction uncertainty decrease with the grating rotation angle. The experimental implementation is very simple, as it does not require any sophisticated mechanical system to improve the accuracy, no exhaustive calibration, and no additional mechanical and optical dispositive. With the present approach, the PSI method could be achieved very simply and with high accuracy by using a low-accuracy actuator. The theoretical model and experimental results are presented to demonstrate the present proposal.

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来源期刊

Journal of Optics OPTICS-

CiteScore

4.50

自引率

4.80%

发文量

237

审稿时长

1.9 months

期刊介绍： Journal of Optics publishes new experimental and theoretical research across all areas of pure and applied optics, both modern and classical. Research areas are categorised as: Nanophotonics and plasmonics Metamaterials and structured photonic materials Quantum photonics Biophotonics Light-matter interactions Nonlinear and ultrafast optics Propagation, diffraction and scattering Optical communication Integrated optics Photovoltaics and energy harvesting We discourage incremental advances, purely numerical simulations without any validation, or research without a strong optics advance, e.g. computer algorithms applied to optical and imaging processes, equipment designs or material fabrication.