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Phase retrieval by random binary amplitude modulation and ptychography principle

Cheng Xu, Hui Pang, Axiu Cao, Qiling Deng, Huajun Yang

2022Optics Express19 citationsDOIOpen Access PDF

Abstract

An improved binary amplitude modulation-based phase retrieval method studied by means of simulations and experiments is presented in this paper. The idea of ptychography is introduced for the purpose of designing random binary amplitude masks. The masks have the features that part of the light transmission regions is overlapped with each other and the overlapping positions are randomly distributed. The requirement for the consistency of light field in overlapping regions forms a strong constraint which is similar to the overlap constraint in ptychography. The constraint makes the iterative algorithm have high convergence accuracy in comparison to that of the original binary amplitude modulation method. Influences of amounts and overlap ratio of the modulation mask on reconstruction accuracy and speed of imaging process are analyzed. The comparison between our method and the original binary amplitude modulation method is performed in order to verify the feasibility of the proposed method.

Topics & Concepts

PtychographyPhase retrievalBinary numberOpticsAmplitudeModulation (music)Phase modulationPhysicsAmplitude modulationBinary dataPhase (matter)Transmission (telecommunications)Constraint (computer-aided design)AlgorithmPulse-amplitude modulationConvergence (economics)Light fieldFrequency modulationComputer scienceConsistency (knowledge bases)Structured-light 3D scannerCoherent diffraction imagingSpatial frequencyNoise (video)Binary codeIterative reconstructionAdvanced X-ray Imaging TechniquesCrystallography and Radiation PhenomenaDigital Holography and Microscopy
Phase retrieval by random binary amplitude modulation and ptychography principle | Litcius