Generation of ultra-wideband achromatic Airy plasmons on a graphene surface | Zendy

Chunying Guan | Zendy; Tingting Yuan | Zendy; Rang Chu | Zendy; Yize Shen | Zendy; Zheng Zhu | Zendy; Jinhui Shi | Zendy; Ping Li | Zendy; Libo Yuan | Zendy; Gilberto Brambilla | Zendy

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Generation of ultra-wideband achromatic Airy plasmons on a graphene surface

Author(s) -

Chunying Guan,

Tingting Yuan,

Rang Chu,

Yize Shen,

Zheng Zhu,

Jinhui Shi,

Ping Li,

Libo Yuan,

Gilberto Brambilla

Publication year - 2017

Publication title -

optics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.524

H-Index - 272

eISSN - 1071-2763

pISSN - 0146-9592

DOI - 10.1364/ol.42.000563

Subject(s) - optics , plasmon , surface plasmon polariton , grating , achromatic lens , surface plasmon , graphene , physics , plasmonic lens , optoelectronics , materials science , quantum mechanics

Tunable ultra-wideband achromatic plasmonic Airy beams are demonstrated on graphene surfaces. Surface plasmonic polaritons are excited using diffractive gratings. The phase and amplitude of plasmonic waves on the graphene surface are determined by the relative position between the grating arrays and the duty ratio of the grating unit cell, respectively. The transverse acceleration and nondiffraction properties of plasmonic waves are observed. The achromatic Airy plasmons with identical acceleration trajectory at different excited frequencies can be achieved by tuning dynamically the Fermi energy of graphene without reoptimizing the grating structures. The proposed devices may find applications in photonics integrations and surface optical manipulation.

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