Abstract
Optical metamaterials provide exciting prospects for tackling fundamental challenges in photonics. A major opportunity lies in precisely manipulating light in integrated optics systems such as in sensors and optical circuitry. Such applications currently use photonic-band-gap materials or plasmon polaritons on material interfaces to benefit from strong light confinement. Unfortunately, plasmon-based waveguides suffer from a trade-off between the light’s confinement and its propagation range. For long-range applications, researchers have increasingly relied on the diverse optical properties of all-dielectric metamaterials. Can one design an optical device in a waveguide geometry using these dielectric metamaterials? This year, we proposed a design tool for dielectric metamaterial waveguides based on coordinate transformations. Our approach allows us to transform light trajectories along a two-dimensional plane until they conform to the needs of the application in question.
Original language | English |
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Pages | 58-58 |
Number of pages | 1 |
Volume | 27 |
No. | 12 |
Specialist publication | Optics & Photonics News (OPN) |
Publisher | Optical Society of America |
Publication status | Published - 1 Dec 2016 |