一种测量标定试验球曲率半径的精确方法

IF 0.7 4区物理与天体物理 Q4 OPTICS Optica Applicata Pub Date : 2022-01-01 DOI:10.37190/oa220206

J. M. Jalife-Chavira, G. Trujillo-Schiaffino, P. G. Mendoza-Villegas, D. P. Salas-Peimbert, M. Anguiano-Morales, L. F. Corral-Martinez, Edgar Zendejas-Hernández

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引用次数: 0

摘要

本文提出了一种基于获取的圆余弦条纹图像与标定测试表面上形成的虚像大小之间的关系来测量测试球体曲率半径的方法。利用光学装置的参数，用所提出的精确方程计算了曲率半径。通过定位极值指数对条纹模式进行评价。给出了数学公式、实验装置和实验结果。在对数据应用线性拟合算法作为补偿方法后，得到的结果显示误差在ISO 10343规范规定的公差范围内。

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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An exact approach for radius of curvature measurement in a calibration test sphere

In this paper we present a technique to measure the radius of curvature of a test sphere based on the relation between acquired images of a circular cosine fringe pattern and size of virtual image formed on the calibration test surface. Radius of curvature is calculated with the exact equation proposed, using the parameters of the optical setup. Fringe pattern evaluation was performed by locating extrema indices. The mathematical formulation as well as the experimental setup and results are presented. After applying a linear fit algorithm to the data as a method of compensation, obtained results show an error within the tolerance established by the ISO 10343 specifications.

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来源期刊

Optica Applicata 物理-光学

CiteScore

1.00

自引率

16.70%

发文量

审稿时长

4 months

期刊介绍： Acoustooptics, atmospheric and ocean optics, atomic and molecular optics, coherence and statistical optics, biooptics, colorimetry, diffraction and gratings, ellipsometry and polarimetry, fiber optics and optical communication, Fourier optics, holography, integrated optics, lasers and their applications, light detectors, light and electron beams, light sources, liquid crystals, medical optics, metamaterials, microoptics, nonlinear optics, optical and electron microscopy, optical computing, optical design and fabrication, optical imaging, optical instrumentation, optical materials, optical measurements, optical modulation, optical properties of solids and thin films, optical sensing, optical systems and their elements, optical trapping, optometry, photoelasticity, photonic crystals, photonic crystal fibers, photonic devices, physical optics, quantum optics, slow and fast light, spectroscopy, storage and processing of optical information, ultrafast optics.