Litcius/Paper detail

Ptychographic phase retrieval by proximal algorithms

Hanfei Yan

2020New Journal of Physics30 citationsDOIOpen Access PDF

Abstract

Abstract We derive a set of ptychography phase-retrieval iterative engines based on proximal algorithms originally developed in convex optimization theory, and discuss their connections with existing ones. The use of proximal operator creates a simple frame work that allows us to incorporate the effect of noise from a maximum-likelihood (ML) principle. We focus on three particular algorithms, namely proximal minimization, alternating direction method of multiplier and accelerated proximal gradient (APG). We benchmark their performance with numerical simulations, and discuss their optimal conditions for convergence and accuracy. An experimental dataset is used to demonstrate their effectiveness as well, in which case an array of cubic Au nanoparticles with a size of 50 nm is imaged. We show that with the presence of Poisson noise, a dataset with photon counts up to 10 4 at one detector pixel already requires ML-based methods to achieve a stable convergence. Among the three algorithms derived in this work, APG method is reported first time for its application in ptychographic reconstruction and shows superior performance in terms of both accuracy and convergence rate with a noisy dataset.

Topics & Concepts

Phase retrievalPhysicsAlgorithmProximal Gradient MethodsFocus (optics)PtychographyMinificationRegular polygonConvergence (economics)Rate of convergenceSet (abstract data type)Convex optimizationPhase (matter)OpticsComputer scienceMathematical optimizationDiffractionFourier transformKey (lock)GeometryMathematicsEconomicsProgramming languageEconomic growthComputer securityQuantum mechanicsAdvanced X-ray Imaging TechniquesX-ray Spectroscopy and Fluorescence Analysis