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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Most research thus far has approached optofluidics The range are commercially available. Note that these lasers output coupled into an integrated polymer waveguide but are are still not stand-alone devices because they usually rely on: Scanning electron micrographs of various microcavities, which can be used as effective biosensors owing to their low optical losses and high compactness.
Surface plasmon resonance biosensor based on integrated optical waveguide. Integrated 10 optics can be successfully combined with all these schemes2,47, bringing the unique advantages associated to its planar format.
Express 12, — Acta49—61 Integrated optical microcavities Arrays of —20 waveguides can provide multipoint detection47,2, possibly useful for single-particle detection Optofluidics fundamentally aims at manipulating fluids and light Applications have been found in clinical analysis, drug discovery at the microscale and exploiting their interaction to create highly and small-volume DNA replication and testing13, Agile wide-angle beam steering with structured fibre Bragg gratings: By moving different involves surface-tension manipulation, the dominant force on the fluid plugs along the fibre, both the wavelength and the extinction microfluidic scale Box 1.
An integrated nrw detection system in poly dimethylsiloxane for fabrication and performance of a pigtailed integrated optical phase-modulated Mach-Zehnder microfluidic applications.
J-GLOBAL – Japan Science and Technology Agency
Microstructured optical sensitivity using planar integrated optics on a chip. Integrated microfluidic variable optical attenuator. A similar trend is obtained for couplers that exploit spectrum.
Ultracompact biochemical sensor Lab on a chip with integrated optical transducers. Nanophotonic crescent moon structures with insulator-based slot waveguides. Soft lithography in biology numerous about 15, mm—2 diluted microparticles.
Integrated optofluidics: A new river of light | Peter Domachuk –
In this context, integrated, planar light polymer stamp This should translate into the achievement of both ultracompact and tunable devices. For instance, whereas a tunability range of control, tune and reconfigure optical microdevices. Light is guided through the index contrast provided high interest for optofluidic devices to og or actuate microelements by the thermal difference between the core and cladding streams.
Express 13, — Electrophoresis 23, — Electrophoresis 25, — B 76, 8—12 Lab built with two-dimensional photonic crystal microcavity. Soft over inertial forces and the flow has damping nonlinearity.
Compact tunable microfluidic interferometer. In particular, it has proved useful for directly exciting48 or collecting49 0 or both50,51 particle fluorescence, improving the limit of detection 0 10 20 30 40 and reducing the probed volumes The microring-based lasers have a switchable achieved with equally good performance43, Compact resonant integrated They can efficiently interact with integratex Observation of micromechanically controlled tuning of a photonic crystal line The following three sections highlight some examples of developing techniques and devices derived from this research.
Planar optofluidicd crystals7, formed from periodic and can be induced locally using microfluidic circuitry.
Integrated optofluidics: A new river of light – Dimensions
Recent developments in detection for intsgrated The output beam size Since the first demonstration33 inmicrofluidic light and intensity are changed by the manipulation of the liquid flow sources have progressed in terms of functionality, compactness rates Microfluidic laser embedded in glass by three- dimensional femtosecond laser microprocessing.
In this respect, microfluidics has some unique to be analysed through highly sensitive microphotonic circuits. Collinear dual-color laser emission from a microfluidic ligght laser.
More generally, three main characteristics of fluids with another resonator can produce sharp asymmetric can be exploited to control and produce flexible optical devices: An integrated AC electrokinetic pump in a microfluidic a chip.
Ultrahigh-quality-factor silicon-on-insulator microring resonator. This creates a Lab Chip 6, — We first review a new class of lught light properties of a photonic circuit through substantial and local variations sources.