Low-Loss Switchable Metasurface-Based Waveplate using Phase Change of Antimony Triselenide for Telecom Applications

Low-Loss Switchable Metasurface-Based Waveplate using Phase Change of Antimony Triselenide for Telecom Applications

In this paper we introduce the design of a switchable metasurface waveplate using low-loss phase-change material. The structure includes Antimony Triselenide grating deposited over a glass substrate, which can be easily fabricated using standard silicon fabrication technology. By employing the diffe...

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Hauptverfasser: Negm, Ayman, Bakr, Mohamed, Howlader, Matiar, Ali, Shirook
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Antimony
Gratings
Nanophotonics
Optical switches
Propagation losses
Silicon
Telecommunications
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Beschreibung
Zusammenfassung:In this paper we introduce the design of a switchable metasurface waveplate using low-loss phase-change material. The structure includes Antimony Triselenide grating deposited over a glass substrate, which can be easily fabricated using standard silicon fabrication technology. By employing the different birefringent effect induced, the grating operates as a quarter-wave plate when Antimony Triselenide is in the amorphous state, and operates as a half-wave plate when it is in the crystalline state. The grating parameters (thickness, height, and period) are optimized using global genetic algorithm. The design provides above 80% transmission for amorphous and crystalline states over the telecom band between 1.3 and 1.65 µm. The proposed design constitutes an important device for integrated silicon nanophotonics and flat optics applications.
ISSN:1054-4887