Beam switching and bifocal zoom lensing using active plasmonic metasurfaces | Zendy

Xinghui Yin | Zendy; Tobias Steinle | Zendy; Lingling Huang | Zendy; Thomas Taubner | Zendy; Matthias Wuttig | Zendy; Thomas Zentgraf | Zendy; Harald Gießen | Zendy

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Beam switching and bifocal zoom lensing using active plasmonic metasurfaces

Author(s) -

Xinghui Yin,

Tobias Steinle,

Lingling Huang,

Thomas Taubner,

Matthias Wuttig,

Thomas Zentgraf,

Harald Gießen

Publication year - 2017

Publication title -

light science and applications

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.104

H-Index - 96

eISSN - 2095-5545

pISSN - 2047-7538

DOI - 10.1038/lsa.2017.16

Subject(s) - plasmon , materials science , nanophotonics , optoelectronics , optics , lens (geology) , amorphous solid , miniaturization , nanotechnology , physics , chemistry , organic chemistry

Compact nanophotonic elements exhibiting adaptable properties are essential components for the miniaturization of powerful optical technologies such as adaptive optics and spatial light modulators. While the larger counterparts typically rely on mechanical actuation, this can be undesirable in some cases on a microscopic scale due to inherent space restrictions. Here, we present a novel design concept for highly integrated active optical components that employs a combination of resonant plasmonic metasurfaces and the phase-change material GeSbTe. In particular, we demonstrate beam switching and bifocal lensing, thus, paving the way for a plethora of active optical elements employing plasmonic metasurfaces, which follow the same design principles.

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