Extreme nonlinear optical enhancement in chalcogenide glass fibers with deep-subwavelength metallic nanowires

Details Extreme nonlinear optical enhancement in chalcogenide glass fibers with deep-subwavelength metallic nanowires Extreme nonlinear optical enhancement in chalcogenide glass fibers with deep-subwavelength metallic nanowires

2011-02-20

arxiv.org/abs/1102.4032v2

Physics

Optics

3 pages, 4 figures

Scientific paper

A nanostructured chalcogenide-metal optical fiber is proposed. This hybrid nanofiber is embedded with a periodic array of triangular-shaped deep-subwavelength metallic nanowires set up in a bowtie configuration. Our simulations show that the proposed nanostructured fiber supports a guided collective plasmonic mode enabling both subwavelength field confinement and extreme nonlinear light- matter interactions, much larger than a bare chalcogenide nanowire of comparable diameter. This is all achieved with less than 3% by volume of metal content.

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