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(3N+1)-frame phase retrieval for double-grating Ronchi lateral shearing interferometry

Yunjun Lu, Feng Tang, Rong Su, Zhongliang Li, Fudong Guo, Peng Feng, Xiangzhao Wang

2022Optics and Lasers in Engineering15 citationsDOIOpen Access PDF

Abstract

Accurate wavefront measurement using double-grating Ronchi lateral shearing interferometry significantly relies on the accuracy of shear-phase retrieval. Traditional methods cannot effectively suppress the interferences of unwanted diffractions generated by the Ronchi grating at the image plane. In this paper, we propose a method that uses 3N+1 shear interferograms to retrieve the shear phase, where N is a positive integer. The selection of N depends on the number of the diffraction orders existing in the shearogram. According to the numerical aperture of the optical system under test and the period of image grating, the interferograms corresponding to the specific 3N+1 phase shifts are obtained, from which the shear phase is calculated. For validation, the frequency response of the proposed algorithm is characterized, and the improved accuracy of wavefront measurement is demonstrated by comparisons with the existing 8-frame, 10-frame and 13-frame methods.

Topics & Concepts

OpticsWavefrontShearing interferometerShearing (physics)GratingInterferometryDiffractionPhase (matter)Shear (geology)PhysicsComputer scienceAstronomical interferometerMaterials scienceComposite materialQuantum mechanicsThermodynamicsOptical measurement and interference techniquesAdaptive optics and wavefront sensingAdvanced X-ray Imaging Techniques