Active control and spatial mapping of mid-infrared propagating surface plasmons | Zendy

Troy Ribaudo | Zendy; Eric A. Shaner | Zendy; Scott S. Howard | Zendy; Claire Gmachl | Zendy; X. J. Wang | Zendy; FowSen Choa | Zendy; Daniel Wasserman | Zendy

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Active control and spatial mapping of mid-infrared propagating surface plasmons

Author(s) -

Troy Ribaudo,

Eric A. Shaner,

Scott S. Howard,

Claire Gmachl,

X. J. Wang,

FowSen Choa,

Daniel Wasserman

Publication year - 2009

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.17.007019

Subject(s) - optics , surface plasmon , grating , materials science , extraordinary optical transmission , plasmon , laser , surface plasmon polariton , wavelength , coupling (piping) , optoelectronics , diffraction grating , dielectric , localized surface plasmon , quantum cascade laser , rigorous coupled wave analysis , physics , metallurgy

Periodic arrays of subwavelength apertures in metal films have been shown to exhibit strongly enhanced transmission at wavelengths determined by the periodicity of the film as well as the optical properties of the metal and surrounding dielectric material. Here we investigate the coupling between such a grating and a Quantum Cascade Laser. By actively tuning the optical properties of our grating, we control the coupling of laser light to the plasmonic structure, switching our grating from a predominantly transmitting state to a state that allows coupling to propagating surface waves, which can then be imaged on the metallic surface.

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