An integrated surface-plasmon source

A compact and versatile source of coherent surface-plasmon polaritions (SPPs) is demonstrated by end-coupling a laser diode operating at 1.46 microm to a plasmonic waveguide integrated on the same microchip. With an optimized overlap between the spatial-modes of the laser and a planar-stripe wavegui...

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Veröffentlicht in:Optics express 2010-05, Vol.18 (10), p.10609-10615
Hauptverfasser: Kim, C S, Vurgaftman, I, Flynn, R A, Kim, M, Lindle, J R, Bewley, W W, Bussmann, K, Meyer, J R, Long, J P
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container_end_page 10615
container_issue 10
container_start_page 10609
container_title Optics express
container_volume 18
creator Kim, C S
Vurgaftman, I
Flynn, R A
Kim, M
Lindle, J R
Bewley, W W
Bussmann, K
Meyer, J R
Long, J P
description A compact and versatile source of coherent surface-plasmon polaritions (SPPs) is demonstrated by end-coupling a laser diode operating at 1.46 microm to a plasmonic waveguide integrated on the same microchip. With an optimized overlap between the spatial-modes of the laser and a planar-stripe waveguide, a high coupling efficiency of approximately 36% is achieved, that computations show could approach approximately 60% with smaller, readily achievable gaps between laser and waveguide. This integrated and electrically-activated source, with an available SPP power limited only by the laser diode, appears ideally suited for directly driving plasmonic circuitry or surface-enhanced sensors.
doi_str_mv 10.1364/OE.18.010609
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subjects Lasers, Semiconductor
Lighting - instrumentation
Surface Plasmon Resonance - instrumentation
Systems Integration
title An integrated surface-plasmon source
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