Sentences with phrase «photonic devices»
"Photonic devices" refer to electronic devices that use light rather than electricity to process and transmit information. Full definition
The finding that a single layer of atoms modifies properties of light and other electromagnetic radiation has implications for controlling light at subwavelength scales in photonic devices such as LEDs and photovoltaic cells.
sciencedaily.com
But so far, Wade explains, photonic devices used in chip - to - chip communication have been primarily custom - built using specialized methods, limiting their commercial applicability.
The phenomenon could someday be used to build microscopic crystalline components for photonic devices, researchers say.
Many applications in spectroscopy, material science, security and industry process control, or chemical, biological and medical sensing would straightforwardly take advantage of mid-infrared photonics devices of higher performance.
The new study, entitled «Optomechanical measurement of photon spin angular momentum and optical torque in integrated photonic devices» was published in the American Association for the Advancement of Science's journal Science Advances.
«Flatland optics with graphene: Smaller and faster photonic devices and circuits.»
The main modules developed for this router were a filter Mux card, Wavelength Converter Card, MEMS switch card and an Optical controller card - all of them using state - of - the - art MEMS based photonic devices.
Bob Deri's technical scope spans fields such as photonic devices, micro-fabrication, communications systems and interconnects, integrated electronics, hardware, large laser systems and microwave diagnostics.
A robust micrometer - scale structure for trapping light enhances optical interactions in advanced photonic devices.
The team's research, reported in the journal Nature Materials, describes engineering the electronic band structure of laser - crystallised silicon photonic devices to help overcome one of the key challenges of using silicon in data communications.
For example, in photonic devices like solar cells, lasers and LEDs, the junction is where photons are converted into electrons, or vice versa.
Furthermore, it is possible that higher - dimensional physics could be used as a design principle for novel photonic devices.»
Photonic devices require a high contrast between its component materials, with some components having a high refractive index and others have a low one.
Now, engineers have demonstrated that low power photonic devices can be fabricated using standard chip - making processes.
But these so - called photonic devices are typically built using customized methods that make them difficult and expensive to manufacture.
Before starting at the Lab in 1992, Deri worked at Belicore in the area of photonic devices where he researched and invented multiple devices.
Economically important applications for semiconductor photonic devices include optical data recording, fiber optic telecommunications, laser printing (based on xerography), displays, and optical pumping of high - power lasers.
ICFO also hosts active programs in nanophotonics, including nano - structured materials, nano - cavities, nano - antennas, low cost material processed nano photonic devices and plasmonic enhanced light harvesting.
For Professor Mo Li and his team, it is exciting that their experiment provides the first unambiguous measurement of the spin angular momentum of photons and the optical torque generated in an integrated photonic device.
The work, published yesterday in Science, opens new opportunities for smaller and faster photonic devices and circuits.
The method used by Yu and colleagues of directly inserting light into the cavity through the end of the fiber proved far more robust, making the technology a plausible platform for cheap and compact optical - resonator - based photonic devices.
My work spans research in photonic devices, optical systems engineering, optimization, computer vision, and biomedical applications.
Photonic devices — which convert light to electricity and vice versa — offer an energy - efficient alternative to traditional copper network links for information transmission.
Researchers have also been able to coat their DNA objects with plastics, metals, and other materials to fashion tiny machine components, electronics, and photonic devices.
Researchers have previously shown that they can decorate smaller DNA creations with everything from nanoscale metal particles to fluorescent chemical compounds, which may one day be useful for making novel electronic and photonic devices.
The benefits of this study are directly related to the control of various optical phenomena through the dielectric polarization, and the results will help the development of future electronic and photonic devices.»
By tying substances like this in knots, the researchers hope to understand how their intricate configurations and unique properties can be harnessed in the next generation of advanced materials and photonic devices.
«We are interested in this as creating and controlling these intricate knotted fields is an emergent avenue for the design of new metamaterials and photonic devices.»
«Möbius strip ties liquid crystal in knots to produce tomorrow's materials and photonic devices.»
«The inefficiencies in highly nonlinear photonic devices are overcome here, by photonic device engineering for maximum nonlinearity, while still maintaining a sufficiently large bandgap to eliminate two - photon absorption at the telecommunications wavelength.
For most semiconductor electronic or photonic devices to work, they need to have a junction, which is where two semiconductor materials are bound together.
In the 21st century, photonic devices, which use light to transport large amounts of information quickly, will enhance or even replace the electronic devices that are ubiquitous in our lives today.
The higher the contrast between those materials, the more efficient the photonic device is - and the better it performs.
Researchers from North Carolina State University have developed a new way to transfer thin semiconductor films, which are only one atom thick, onto arbitrary substrates, paving the way for flexible computing or photonic devices.
Researchers from North Carolina State University have developed a dielectric film that has optical and electrical properties similar to air, but is strong enough to be incorporated into electronic and photonic devices - making them both more efficient and more mechanically stable.
Chip - to - chip communication links using these photonic devices could have at least 10 times higher bandwidth density, meaning they can transmit much more information using a smaller amount of space.
The ability to produce high - performing photonic devices using the CMOS process means chip designers will not have to be specialists to design photonic devices, Wade explained, which will hopefully accelerate the commercialization of photonic technology.
This approach may allow the use of optical methods to make high - speed measurements of nanometric defects in computer chips and photonic devices.
Single - crystal thiophene - phenylene (TPCO) and furan - phenylene co-oligomers (FPCO) have a great potential for the application in optoelectronics and photonic devices, since they combine high luminescence and efficient charge transport.
Resume: Single - crystal thiophene - phenylene (TPCO) and furan - phenylene co-oligomers (FPCO) have a great potential for the application in optoelectronics and photonic devices, since they combine high luminescence and efficient charge transport.