A new hybrid Material platform for dynamically reconfigurable metaphotonic devices with control over amplitude, phase, polarization, and spectral properties of an optical wavefront will be demonstrated. The integration of dielectric, plasmonic, and phase-change materials in this platform enables the engineering of the electromagnetic modes in different states of the device with a wide range of properties for realization of reconfigurable metaphotonic devices. Design, fabrication, and application of these platforms for state-of-the-art applications will be covered.
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