Filtering and modulation from visible to terahertz using phase-change extraordinary optical transmission metasurfaces
Humphreys, E; Bertolotti, J; Ruiz de Galarreta, C; et al.Casquero, N; Siegel, J; Wright, CD
Date: 13 January 2023
Article
Journal
physica status solidi (RRL) - Rapid Research Letters
Publisher
Wiley
Abstract
Periodic arrays of sub-wavelength-scale holes in plasmonic metal films are known to provide resonant transmission peaks via the extraordinary optical transmission (EOT) effect. Active control of the spectral position of such transmission peaks can be obtained by adding a layer of phase-change material (PCM) to the EOT device. Switching ...
Periodic arrays of sub-wavelength-scale holes in plasmonic metal films are known to provide resonant transmission peaks via the extraordinary optical transmission (EOT) effect. Active control of the spectral position of such transmission peaks can be obtained by adding a layer of phase-change material (PCM) to the EOT device. Switching the PCM layer between its amorphous and crystalline states can shift the spectral position of the resonance, enabling potential applications in the fields of active filtering and sensing (e.g. multispectral sensing), and for signal modulation. Here we report the design, fabrication and characterisation of active EOT devices targeted at various important regions of the optical spectrum.
Engineering
Faculty of Environment, Science and Economy
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