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Reconfigurable Flat Optics with Programmable Reflection Amplitude Using Lithography‐Free Phase‐Change Material Ultra‐Thin Films

Sébastien Cueff, Arnaud Taute, Antoine Bourgade, Julien Lumeau, S. Monfray, Qinghua Song, Patrice Genevet, Brice Devif, Xavier Letartre, Lotfi Berguiga

2020Advanced Optical Materials49 citationsDOIOpen Access PDF

Abstract

Abstract A very large dynamic optical reflection modulation from a simple unpatterned layered stack of phase‐change material ultra‐thin films is experimentally demonstrated. Specifically, this work demonstrates that properly designed systems comprising deeply subwavelength GeSbTe (GST) films, a dielectric spacer, and a metallic mirror produce a dynamic modulation of light in the near‐infrared from very strong reflection (up to ) to perfect absorption () by simply controlling the crystalline state of the phase‐change material. While the amplitude of modulation experimentally reaches an optical contrast higher than 10 4 , intermediate levels of reflection in between extreme values can also be actively encoded, corresponding to partial crystallization of the GST layer. Several layered system designs are further explored and guidelines are provided to tailor the efficient wavelength range, the angle of operation, and the degree of crystallization leading to perfect absorption.

Topics & Concepts

Materials scienceOpticsReflection (computer programming)Stack (abstract data type)Thin filmOptoelectronicsModulation (music)LithographyDielectricPhase modulationAbsorption (acoustics)WavelengthAmplitude modulationPhase (matter)Frequency modulationNanotechnologyPhysicsComputer scienceTelecommunicationsPhase noiseProgramming languageQuantum mechanicsBandwidth (computing)AcousticsPhase-change materials and chalcogenidesLiquid Crystal Research AdvancementsMetamaterials and Metasurfaces Applications
Reconfigurable Flat Optics with Programmable Reflection Amplitude Using Lithography‐Free Phase‐Change Material Ultra‐Thin Films | Litcius