Chalcogenide hyperbolic metamaterial with switchable negative refraction
Harish N. S. Krishnamoorthy, Behrad Gholipour, Nikolay I. Zheludev,, and Cesare Soci

TL;DR
This paper demonstrates a novel, switchable hyperbolic metamaterial using chalcogenide glass, enabling reconfigurable optical properties across a broad spectrum for advanced nanophotonic applications.
Contribution
It introduces the first non-volatile, phase-change-based hyperbolic metamaterial using GST alloy, allowing dynamic switching of hyperbolic dispersion from infrared to visible.
Findings
Successfully demonstrated switchable hyperbolic dispersion.
Achieved non-volatile reconfigurability through phase change.
Enabled potential for reconfigurable optical devices.
Abstract
Chalcogenide glasses are exceptional materials that show a wide contrast in optical properties upon phase change and are highly researched for reconfigurable electronic and nanophotonic devices. Here, we report the first proof-of-concept demonstration of a non-volatile, switchable hyperbolic metamaterial based on a chalcogenide glass. By using the (GST) alloy as one of the components of a multilayered nanocomposite structure and exploiting its phase change property, we demonstrate a hyperbolic metamaterial in which the Type-I hyperbolic dispersion can be switched from the near infrared to the visible region. This opens up new opportunities for reconfigurable device applications, such as imaging, optical data storage and sensing.
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Taxonomy
TopicsPhase-change materials and chalcogenides · Metamaterials and Metasurfaces Applications · Liquid Crystal Research Advancements
