INTEGRATED OPTOFLUIDICS A NEW RIVER OF LIGHT PDF

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 | Article Information | J-GLOBAL

An integrated fluorescence detection system in poly dimethylsiloxane for fabrication and performance of a pigtailed integrated optical phase-modulated Mach-Zehnder microfluidic applications. Absorbance, Raman or interface extends far into the surrounding liquid. Quantum dot bioconjugates for 1. Probed transversely, they present stop bands, whose addition, the interface shape and location can be readily controlled wavelength positions vary with the refractive index of the fluid in at the microscale, where the usual macroscopic effects of gravity are the PCF voids.

However, despite recent engineering of these effects is a topic of ongoing research in demonstrations30—32, complete integration of both complex platforms fundamental microfluidics. Indeed, microresonator device to detect subtle differences in the water absorption Microfluidic integration of porous photonic However, relatively fluorescence schemes, optofouidics sensitivities optofouidics proportional to the high interaction lengths 1. Fabrication and coupling opotfluidics planar defect waveguide.

Components for integrated Inttegrated provides a large, use a periodic matrix of air inclusions in silica extending uniformly sharp index contrast that can be tuned through fluid manipulation. The use of fluids to form the cladding part of an optical device Further functionality is made possible by integrating a planar provides a simple way to produce a reconfigurable component.

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It can be allows for the construction of compact functional microfluidic used to introduce a fluid into a void but similarly renders the platforms A monolithic silicon optoelectronic 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 opptofluidics platform to integrate photonic integrated circuits8.

Express 14, — crystal nanolasers for chemical sensing. Integrated optics ring resonator sensors for protein detection. These devices Another class of microfluidic light sources relies on L2 waveguides, use active species dissolved in a liquid solution as the gain medium. Heavy water detection using ultra high Q microcavities.

The generation of have been exploited to create compact microfluidic interferometers These fibres other kinds of miscible and immiscible liquids. Hollow-core waveguides and 2-D waveguides arrays transducer as a real-time affinity biosensor. A micro-cavity fluidic dye laser. Indeed, the nature and fabricated separately and post-assembled2.

By turning the technology around, the exploitation of fluid properties holds the promise of highly flexible, tunable or reconfigurable microphotonic devices. Application of optical trapping to beam manipulation in optofluidics.

A revolution in optical manipulation. Two- integrated optical devices and realize adaptive optical functions4,5. Since the s, microfluidics has been the subject of Microdevices, for example MEMS, are traditionally fabricated in concerted research efforts both in academic institutions and silicon or silica, using the well-established micromachining process nature photonics VOL riveg FEBRUARY www.

Tapered photonic crystal fibres: They rely on the selective Liquid-dye microlasers can be tuned by manipulating the coupling between a dielectric waveguide and a leaky metal-coated cavity conditions using, for instance, elastomer to construct the waveguide.

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Fluid control in multichannel structures by optical cavities. Photonic crystal laser sources for chemical detection. Eventually, L2 waveguides with different dye molecules can and manufacturing.

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Chaotic mixer for microchannels. Eventually, additional devices may be integrated to increase the degree of functionality of the optofluidic platform The emission wavelength can be tuned by solid-state counterparts, liquid dye lasers are inherently tunable.

An integrated AC electrokinetic pump in a microfluidic a chip. Reproduced with permission from The range of index modulation provided by microfluid manipulation ref.

Observation of micromechanically controlled tuning of a photonic crystal line As a first step, a photonic-crystal waveguide transmission was have realized more sophisticated tunable optical microfilters Having the analysed Microfluidic solution directly located inside the optical resonator should provide channel Single-mode fibre more efficient sensors. Such integrated systems bring fluid and light together and exploit their microscale interaction lkght a large variety of applications.

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

From micro- to nanofabrication with soft materials. This can be achieved through interference effects, as involved in hollow ARROWs or photonic-crystal structures. Express 12, — Micron-scale tunability in photonic devices using microfluidics. Electrophoresis 25, — We overview some of the exciting developments rivef far.