Nanoscale Optical Emitters for High Density Information Processing using Photonic-Plasmonic Coupling in Coaxial Nanopillars

Abstract

In this project we investigated active, Si-compatible linear and nonlinear sources in plasmonic and metamaterials for high-density information processing. The objective of this two-year research program was to design and to engineer scalable, low-threshold, efficient light sources based on sub-wavelength mode confinement and nanoscale photonic-plasmonic coupling in active Si-based nanocavity structures and arrays for high-density integration and information processing. We have demonstrated state-of-the-art nano-ring plasmonic cavities with enhanced emission efficiency, polarization-switchable nano-antennas, broadband hybrid (multi-metal, metal-dielectric, all-dielectric) nanostructured arrays for the generation and control of the optical angular momentum of light, and developed new Si-compatible nonlinear metamaterials. These activities are particularly interesting for the development of active nano-pixels with enhanced emission/absorption rates and structured light (i.e., phase engineered) manipulation on a Si chip. Imaging systems, miniaturized photodetector arrays and light sources with specified emission patterns can be developed based on the concepts that we introduced and the results that we demonstrated.

Document Details

Document Type

Technical Report

Publication Date

Mar 10, 2015

Accession Number

AD1003196

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