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>Large radius of curvature measurement based on virtual quadratic Newton rings phase-shifting moire-fringes measurement method in a nonnull interferometer
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Large radius of curvature measurement based on virtual quadratic Newton rings phase-shifting moire-fringes measurement method in a nonnull interferometer
We have proposed a virtual quadratic Newton rings phase-shifting moire-fringes measurement method in a nonnull interferometer to measure the large radius of curvature for a spherical surface. In a quadratic polar coordinate system, linear carrier testing Newton rings interferogram and virtual Newton rings interferogram form the moire fringes. It is possible to retrieve the wavefront difference data between the testing and standard spherical surface from the moire fringes after low-pass filtering. Based on the wavefront difference data, we deduced a precise formula to calculate the radius of curvature in the quadratic polar coordinate system. We calculated the retrace error in the nonnull interferometer using the multi-configuration model of the nonnull interferometric system in ZEMAX. Our experimental results indicate that the measurement accuracy is better than 0.18% for a spherical mirror with a radius of curvature of 41,400 mm. (C) 2016 Optical Society of America
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