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Nonlocal metasurface for circularly polarized light detection

Jiho Hong, Jorik van de Groep, Nayeun Lee, Soo Jin Kim, Philippe Lalanne, Pieter G. Kik, Mark L. Brongersma

2022Optica50 citationsDOIOpen Access PDF

Abstract

Modern-day sensing and imaging applications increasingly rely on accurate measurements of the primary physical quantities associated with light waves: intensity, wavelength, directionality, and polarization. These are conventionally performed with a series of bulky optical elements, but recently, it has been recognized that optical resonances in nanostructures can be engineered to achieve selective photodetection of light waves with a specific set of predetermined properties. Here, we theoretically illustrate how a thin silicon layer can be patterned into a dislocated nanowire-array that affords detection of circularly polarized light with an efficiency that reaches the theoretical limit for circular dichroism of a planar detector in a symmetric external environment. The presence of a periodic arrangement of dislocations is essential in achieving such unparalleled performance as they enable selective excitation of nonlocal, guided-mode resonances for one handedness of light. We also experimentally demonstrate compact, high-performance chiral photodetectors created from these dislocated nanowire-arrays. This work highlights the critical role defects can play in enabling new nanophotonic functions and devices.

Topics & Concepts

PhotodetectionNanophotonicsCircular polarizationPhotodetectorOpticsOptoelectronicsPolarization (electrochemistry)NanowireRayBiophotonicsPlanarPhysicsWavelengthDetectorExcitationMaterials sciencePhotonicsQuantum mechanicsMicrostripComputer graphics (images)ChemistryComputer sciencePhysical chemistryMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchAdvanced Antenna and Metasurface Technologies
Nonlocal metasurface for circularly polarized light detection | Litcius