Open Access Nano Review

Nanoscale waveguiding methods

Chia-Jean Wang* and Lih Y Lin

Author Affiliations

Department of Electrical Engineering, University of Washington, Box 352500, Seattle, WA, 98195, USA

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Nanoscale Research Letters 2007, 2:219-229  doi:10.1007/s11671-007-9056-6

Published: 1 May 2007

Abstract

While 32 nm lithography technology is on the horizon for integrated circuit (IC) fabrication, matching the pace for miniaturization with optics has been hampered by the diffraction limit. However, development of nanoscale components and guiding methods is burgeoning through advances in fabrication techniques and materials processing. As waveguiding presents the fundamental issue and cornerstone for ultra-high density photonic ICs, we examine the current state of methods in the field. Namely, plasmonic, metal slot and negative dielectric based waveguides as well as a few sub-micrometer techniques such as nanoribbons, high-index contrast and photonic crystals waveguides are investigated in terms of construction, transmission, and limitations. Furthermore, we discuss in detail quantum dot (QD) arrays as a gain-enabled and flexible means to transmit energy through straight paths and sharp bends. Modeling, fabrication and test results are provided and show that the QD waveguide may be effective as an alternate means to transfer light on sub-diffraction dimensions.

Keywords:
Nanophotonics; Negative dielectric; Waveguides; Quantum dots; Diffraction limit