A novel class of photonic filters is obtained by integrating a large-area optical plasmonic metasurface with a broadband cholesteric liquid crystal (CLC) Bragg reflector. By utilizing the photo-thermal characteristics of the optical plasmonic metasurface, the reflection properties of the CLC layer can be manipulated. The thermally induced variation of the CLC's pitch and the refractive index produces a reversible blue-redshift of the reflection band of about 80 nm. The synergistic interaction between these two effects enables the development of innovative optical color filters that integrate a light-tunable mirror and a controllable optical absorber.
Thermoplasmonic‐Controlled Optical Filters Based on the Combination of Chiral Liquid Crystals and Metasurfaces
Francesca Petronella;Luciano De Sio
2025
Abstract
A novel class of photonic filters is obtained by integrating a large-area optical plasmonic metasurface with a broadband cholesteric liquid crystal (CLC) Bragg reflector. By utilizing the photo-thermal characteristics of the optical plasmonic metasurface, the reflection properties of the CLC layer can be manipulated. The thermally induced variation of the CLC's pitch and the refractive index produces a reversible blue-redshift of the reflection band of about 80 nm. The synergistic interaction between these two effects enables the development of innovative optical color filters that integrate a light-tunable mirror and a controllable optical absorber.| File | Dimensione | Formato | |
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Macromolecular Rapid Communications - 2025 - Zaccagnini - Thermoplasmonic‐Controlled Optical Filters Based on the.pdf
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