Litcius/Paper detail

End‐to‐end nanophotonic inverse design for imaging and polarimetry

Zin Lin, Charles Roques‐Carmes, Raphaël Pestourie, Marin Soljačić, Arka Majumdar, Steven G. Johnson

2020Nanophotonics77 citationsDOIOpen Access PDF

Abstract

Abstract By codesigning a metaoptical front end in conjunction with an image‐processing back end, we demonstrate noise sensitivity and compactness substantially superior to either an optics‐only or a computation‐only approach, illustrated by two examples: subwavelength imaging and reconstruction of the full polarization coherence matrices of multiple light sources. Our end‐to‐end inverse designs couple the solution of the full Maxwell equations—exploiting all aspects of wave physics arising in subwavelength scatterers—with inverse‐scattering algorithms in a single large‐scale optimization involving degrees of freedom. The resulting structures scatter light in a way that is radically different from either a conventional lens or a random microstructure, and suppress the noise sensitivity of the inverse‐scattering computation by several orders of magnitude. Incorporating the full wave physics is especially crucial for detecting spectral and polarization information that is discarded by geometric optics and scalar diffraction theory.

Topics & Concepts

PhysicsInverseOpticsNanophotonicsInverse scattering problemComputationPolarimetryInverse problemPolarization (electrochemistry)Scalar (mathematics)DiffractionScatteringMathematical analysisAlgorithmGeometryMathematicsPhysical chemistryChemistryOptical Polarization and EllipsometryOrbital Angular Momentum in OpticsRandom lasers and scattering media