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Published 2005 | Published
Book Section - Chapter Open

Integration of sub-wavelength nanofluidics with photonic crystals

Abstract

"Optofluidics" represents the marriage of optics, optoelectronics and nanophotonics with fluidics. Such integration represents a new approach for dynamic manipulation of optical properties at length scales both greater than and smaller than the wavelength of light with applications ranging from reconfigurable photonic circuits to fluidically adaptable optics to high sensitivity bio-detection currently under development. The capabilities in terms of fluidic control, mixing, miniaturization and optical property tuning afforded by micro-, nano-fluidics combined with soft lithography based fabrication provides an ideal platform upon which to build such devices. Here we present our technique for integrating soft lithography based nanofluidics with e-beam lithography defined silicon-on-insulator photonic crystals. We demonstrate nanofluidic addressability of single, sub-wavelength, defects within the planar photonic crystal and the dynamic tuning of the guided mode. In this paper we focus on the fabrication, integration and experimental details of this work.

Additional Information

© 2005 ASME. This work was carried out at the Center for Optofluidic Integration at the California Institute of Technology. Funding for the center is provided by the Defense Advanced Projects Agency under the University Photonics Research Centers Program.

Attached Files

Published - Erickson2005p9482Proceedings_Of_The_Asme_Fluids_Engineering_Division.pdf

Files

Erickson2005p9482Proceedings_Of_The_Asme_Fluids_Engineering_Division.pdf

Additional details

Created:
August 19, 2023
Modified:
January 13, 2024