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Proceedings Paper

New material platforms for dielectric nanoantennas and metasurfaces (Conference Presentation)

Paper Abstract

Optically resonant dielectric nanostructures is a new direction in nanophotonic research which gives a strong promise to compliment or substitute plasmonics in many potential application areas [1]. The main advantages of resonant dielectric nanostructures over conventional plasmonics are low losses, wide range of applicable dielectric materials and strong magnetic resonant response. So far most of research in this field has been conducted with silicon as a material for nanostructures due to its one of the highest value of refractive index at optical frequencies and CMOS compatibility. However, while silicon is an excellent material of choice for operation in the near-IR spectral range its applicability for visible frequencies is limited by increasing losses inside the material. Also, being an indirect bandgap semiconductor it is not a suitable material for making active nanoantenna devices. For these reasons in recent studies research focus starts shifting towards other appropriate materials such as III-V semiconductors, e.g. GaAs or GaP, and wide-bandgap semiconductors such as TiO2. In this presentation we will discuss applicability of different dielectric/semiconductor material platforms for obtaining resonant nanoantennas and metasurfaces operating in the visible frequency range. We will first show that titanium dioxide metasurfaces can be designed to obtain sharp resonances and full phase control at all three RGB wavelengths through Huygens’ metasurface approach, which pave the way towards realization of thin multi-layer metasurfaces with multi-colour operation. Then we will introduce a new III-V material platform based on GaN, which is highly transparent through the whole visible spectrum, and show high-efficiency operation of GaN metasurfaces in the blue and green parts of the visible spectrum. Finally we will discuss active nanoantennas based on GaAs and show the path towards achieving laser emission from resonant semiconductor nanoantenna structures. References: 1) A. I. Kuznetsov et al., “Optically resonant dielectric nanostructures”, Science 354, aag2472 (2016).

Paper Details

Date Published: 29 September 2017
Proc. SPIE 10346, Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XV, 103460S (29 September 2017); doi: 10.1117/12.2273861
Show Author Affiliations
Naresh K. Emani, Data Storage Institute (Singapore)
Hanfang Hao, A*STAR - Data Storage Institute (Singapore)
Egor Khaidarov, A*STAR - Data Storage Institute (Singapore)
Ramon Paniagua-Dominguez, A*STAR - Data Storage Institute (Singapore)
Yuan Hsing Fu, A*STAR - Data Storage Institute (Singapore)
Reuben M. Bakker, A*STAR - Data Storage Institute (Singapore)
Vytautas Valuckas, A*STAR - Data Storage Institute (Singapore)
Arseniy I. Kuznetsov, A*STAR - Data Storage Institute (Singapore)

Published in SPIE Proceedings Vol. 10346:
Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XV
Din Ping Tsai; Takuo Tanaka, Editor(s)

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