Litcius/Paper detail

Phase retrieval and design with automatic differentiation: tutorial

Alison Wong, Benjamin Pope, Louis Desdoigts, Peter Tuthill, Barnaby Norris, Christopher H. Betters

2021Journal of the Optical Society of America B18 citationsDOIOpen Access PDF

Abstract

The principal limitation in many areas of astronomy, especially for directly imaging exoplanets, arises from instability in the point spread function (PSF) delivered by the telescope and instrument. To understand the transfer function, it is often necessary to infer a set of optical aberrations given only the intensity distribution on the sensor—the problem of phase retrieval . This can be important for post-processing of existing data, or for the design of optical phase masks to engineer PSFs optimized to achieve high-contrast, angular resolution, or astrometric stability. By exploiting newly efficient and flexible technology for automatic differentiation , which in recent years has undergone rapid development driven by machine learning, we can perform both phase retrieval and design in a way that is systematic, user-friendly, fast, and effective. By using modern gradient descent techniques, this converges efficiently and is easily extended to incorporate constraints and regularization. We illustrate the wide-ranging potential for this approach using our new package, Morphine. Challenging applications performed with this code include precise phase retrieval for both discrete and continuous phase distributions, even where information has been censored such as heavily saturated sensor data. We also show that the same algorithms can optimize continuous or binary phase masks that are competitive with existing best solutions for two example problems: an apodizing phase plate coronagraph for exoplanet direct imaging, and a diffractive pupil for narrow-angle astrometry. The Morphine source code and examples are available open-source, with an interface similar to the popular physical optics package Poppy.

Topics & Concepts

Computer sciencePhase retrievalAutomatic differentiationExoplanetTelescopePoint spread functionAlgorithmArtificial intelligenceComputer visionPhysicsOpticsComputationStarsQuantum mechanicsFourier transformAdaptive optics and wavefront sensingAdvanced X-ray Imaging TechniquesOptical measurement and interference techniques