Looking for a light-based technology using Optical measurement systems & Sensors as Technology source? Choose PhotonTransfer as your comprehensive source for photonics technologies related to Optical measurement systems & Sensors . Check out the latest opportunities and new technologies involved in the development of Optical measurement systems & Sensors . If you're a physicist, engineer, applied scientist, company or product developer there is something here for you.
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REFLECTION SCATTEROMETER FOR RAPID DETECTION OF BACTERIATech for Transfer TTO 17-01-2016 Reflection scatterometer device that allows for the measurement of three different wavelengths in a few seconds by using a simple, stackable, cage-type pellicle beam-splitter structure. Light sources Optical measurement systems & Sensors Tell me more |
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MOSFET-PIEZO-GAS SENSOR USING METAL OXIDE NANOSTRUCTURESTech for Transfer TTO 17-01-2016 A micro-integrated MOSFET (metal-oxide-semiconductor field transistor) piezo-gas sensor using metal oxide nanostructures such as ZnO and SnO. Nanophotonics Optical measurement systems & Sensors Optoelectronics Tell me more |
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TERAHERTZ AND CROSS-POLARIZED IMAGING FOR CANCER DETECTIONTech for Transfer TTO 17-01-2016 Optical and Terahertz imaging of tissue for cancer detection with the potential to differentiate between non-melanoma skin cancers and normal skin. Biophotonics Optical Imaging and Processing Optical measurement systems & Sensors Tell me more |
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ALL-ORDER PMD COMPENSATION FOR FIBER COMMUNICATIONSTech for Transfer TTO 18-01-2016 Technology that can perform all-order Polarization Mode Dispersion compensation in fiber communication systems to increase the length of fiber communications. Fiber Optics Optical Components & Devices Optical Computing Optical measurement systems & Sensors Tell me more |
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DETERMINING STRAY-LIGHT POINT SPREAD FUNCTIONTech for Transfer TTO 18-01-2016 New and simple method that combines analytical models, computer software, and an optical device to determine the Point Spread Function of stray light. Optical Components & Devices Optical Computing Optical measurement systems & Sensors Tell me more |
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REAL-TIME DETECTION OF LABEL-FREE PROTEIN ADSORPTIONTech for Transfer TTO 18-01-2016 Method for the novel use of nonlinear optical null ellipsometry for background-free, real-time biosensing of protein/surface interactions. Biophotonics Non-Linear Optics Optical measurement systems & Sensors Tell me more |
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OPTOFLUIDIC DEVICE FOR NUCLEIC ACID BIOSENSINGTech for Transfer TTO 18-01-2016 An optofluidic device for label free, highly parallel, detection of molecular interactions based on the use of optically resonant devices whose resonant wavelength is shifted due to a local change in refractive index caused by a positive binding event between a surface bound molecule and its solution phase target. These devices have an extremely low limit of detection and are compatible with aqueous environments. The device combines the sensitivity of nanosensor technology with the parallelity of the microarray type format. Biophotonics Optical measurement systems & Sensors Optofluidics Tell me more |
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OPTOFLUIDIC DYE LASER FOR EFFICIENT ENERGY HARVESTINGTech for Transfer TTO 18-01-2016 Bio-inspired optofluidic dye laser based on DNA scaffolds with an extremely efficient energy transfer even when using an unusually low acceptor concentration. Biophotonics Lasers Optical measurement systems & Sensors Tell me more |
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CMOS-INTEGRABLE PHOTODIODE IN POLYSILICONTech for Transfer TTO 19-01-2016 CMOS-compatible photodiode in polycrystalline silicon eliminates the need for expensive silicon-on-insulator wafers and the complexity of integrating germanium on silicon. Optical measurement systems & Sensors Semiconductors Photodetection Tell me more |
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ELECTRIC FIELD DETECTOR WITH HIGH SENSITIVITY OVER A LARGE FREQUENCY RANGETech for Transfer TTO 20-01-2016 This technology presents an Electric Field Detector (E-FED) with high sensitivity over a broad frequency range. This device utilizes a micro-antenna and an electro-optic waveguide structure to enhance the sensitivity of the electric field detection. It can achieve an increased sensitivity of 100,000 times that of typical E-FEDs over a frequency range that goes from 0.5Hz up to 1GHz with a response bandwidth of about 1,000 Hz. Optical measurement systems & Sensors Optoelectronics Tell me more |
