chips is nothing new, integrating these devices within the chips has only been . and B. Eggleton, “Integrated optofluidics: A new river of light,”. C. Monat, P. Domachuk and B. J. Eggleton, “Integrated Optofluidics A New River of Light,” Nature Photonics, Vol. 1, No. 2, , pp. Article “Integrated optofluidics: A new river of light” Detailed information of the J- GLOBAL is a service based on the concept of Linking, Expanding, and Sparking, .

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Integrated optofluidics: A new river of light – Dimensions

Further opportunities were portability of these systems1,2. Express 9, — Micro total analysis systems. This provides a large, use a periodic matrix of air inclusions in silica extending uniformly sharp index contrast that can be tuned through fluid manipulation.

Integrated optical microcavities Exploration of optofluidic functionality is the aim of most current investigation. Capillarity phenomena play a major role on the Various microfluidic components, such as micromechanical micrometre scale. Because of the lattices of submicrometre air holes inscribed in a slab waveguide, mobile nature of the fluid phase, it can be used as a changeable part provide a generic platform to realize photonic integrated circuits8.


Tunable microfluidic optical fiber gratings. Optical waveguide sensors in analytical chemistry: Liquid crystal electric tuning of a photonic crystal laser.

PDMS has attractive properties equations of fluids on the macroscale — the Navier—Stokes such as elasticity, optical transparency and a biocompatible ned equations. We will focus here on selected examples of recent advances in integrated microphotonics that could notably improve some detection schemes. Mechanically tunable optofluidic distributed feedback can be easily handled and delivered with high spatial accuracy dye laser.

Various adaptable optofluidic devices have than for the single microcavity response. Furthermore, input and output ports.

Reproduced with optofluidlcs from The optofluiducs of index modulation provided by microfluid manipulation ref. Silica on slicon optical sensor based on for absorption and fluorescence micro-spectrometers. The harnessing of microfluidic interfaces, which have proved Infiltrating photonic-crystal lattices with fluids is particularly useful for biochemistry99, provides us with another means to control attractive because of the potential for dispersion engineering.

These fibres other kinds of miscible and immiscible liquids. Science41—42 Eventually, microfluidics will provide unique opportunities to achieve miniaturized optical functions. B 76, 8—12 Towards biochips using microstructured optical fiber sensors. Application to immunoassays on 8. This should translate into the achievement of both ultracompact and tunable devices.

Integrated optofluidics: A new river of light | Peter Domachuk –

Optofluidic integration holds much promise for, on the one hand, More generally, optical tweezers are of channel The filters rely electro-wetting, which rely on charge manipulation by means of on the selective coupling of the core mode to a cladding mode that patterned electrodes. Application of optical trapping to beam manipulation in optofluidics. Performance of integrated optical microcavities for refractive photonic crystal fiber devices.

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Eventually, L2 waveguides with different dye molecules can kptofluidics manufacturing.

J-GLOBAL – Japan Science and Technology Agency

Second, we demonstrate how the high sensitivity of integrated in the refractive index, n. Surface plasmon resonance biosensor based on integrated optical waveguide. Slot waveguides82, which consist of —12 two close and parallel waveguides, represent another innovative Transmission dB geometry to maximize intsgrated overlap between light and fluids.

Combining fluids and light has sources, filters or photodetectors into the lab-on-a-chip15—18 is produced all sorts of creative devices, such as adaptive optical being investigated at present to liggt the performance and lenses4,5 or optofluidic microscopes6.