Sentences with phrase «in photonic devices»

My work spans research in photonic devices, optical systems engineering, optimization, computer vision, and biomedical applications.

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.

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.

«We strongly believe that a silicon - photonic switch is a key device for achieving sustainable growth of traffic bandwidth in optical networks, including both telecommunications and data communications, and eventually computer communications.»

In 1999, Dr. Agranat co-founded Trellis Photonics to develop a new concept in optical computing and photonic switching: Electroholography - a patented method to interconnect electronic processors by holographic deviceIn 1999, Dr. Agranat co-founded Trellis Photonics to develop a new concept in optical computing and photonic switching: Electroholography - a patented method to interconnect electronic processors by holographic devicein optical computing and photonic switching: Electroholography - a patented method to interconnect electronic processors by holographic devices.

«In this way, the switch chip achieves polarization «insensitivity» without doubling the size and cost of the chip, which is important for broadening the practical application of such photonics integrated devices, said lead author Ken Tanizawa of AIST.

A robust micrometer - scale structure for trapping light enhances optical interactions in advanced photonic devices.

These sources are fabricated on a compact, silicon - based integrated photonics platform, which enables hundreds of devices — in this case, frequency combs — to be fabricated on a single small - area die.

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.

«Möbius strip ties liquid crystal in knots to produce tomorrow's materials and photonic devices.»

«We already use optical cables and photonic switches in some of our telecommunications devices.

In order to qualify for participation in the Star Tiger programme, applicants should have experience in one or more of the following research areas: lithography, microelectromechanical systems fabrication, radio frequency (RF) system design, optical and RF photonic bandgap design, test and measurement, charge - coupled device imaging, packaging / micro / self - assembly, mechanical design, materials sciences, solid state physics, or general physicIn order to qualify for participation in the Star Tiger programme, applicants should have experience in one or more of the following research areas: lithography, microelectromechanical systems fabrication, radio frequency (RF) system design, optical and RF photonic bandgap design, test and measurement, charge - coupled device imaging, packaging / micro / self - assembly, mechanical design, materials sciences, solid state physics, or general physicin the Star Tiger programme, applicants should have experience in one or more of the following research areas: lithography, microelectromechanical systems fabrication, radio frequency (RF) system design, optical and RF photonic bandgap design, test and measurement, charge - coupled device imaging, packaging / micro / self - assembly, mechanical design, materials sciences, solid state physics, or general physicin one or more of the following research areas: lithography, microelectromechanical systems fabrication, radio frequency (RF) system design, optical and RF photonic bandgap design, test and measurement, charge - coupled device imaging, packaging / micro / self - assembly, mechanical design, materials sciences, solid state physics, or general physics.

This is exciting for integrated photonics because most optical devices use interactions between two or more waves, which need to propagate in sync as they move through the circuit.

«Our inkjet printing demonstration makes possible for the first time the scalable mass fabrication of black phosphorus based photonic and optoelectronic devices with long - term stability necessary for a wide range of industrial applications,» tells Professor Zhipei Sun at Aalto University in Finland.

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.

Sailing He, meanwhile, had made a name for himself in photonics, the effort to develop technologies that manipulate light much as electronic devices control the flow of electricity.

For example, we will be able to collaborate with researchers that work on integration of active and passive devices in silicon for telecommunication («Silicon Photonics for Future Systems» EPSRC program grant) or sensing applications («Mid-IR silicon photonics sources, detectors and sensors» funded by the Royal Society) and that will certainly facilitate progress achieved in MIGRATION.»

«In a sense, the device acts as the photonic equivalent to electronic transistors, which switch electric currents in response to other electric currents,» says Dr. Barak Dayan, head of the Weizmann Institute's Quantum Optics group, including Itay Shomroni, Serge Rosenblum, Yulia Lovsky, Orel Bechler and Gabriel Guendleman of the Chemical Physics Department in the Faculty of ChemistrIn a sense, the device acts as the photonic equivalent to electronic transistors, which switch electric currents in response to other electric currents,» says Dr. Barak Dayan, head of the Weizmann Institute's Quantum Optics group, including Itay Shomroni, Serge Rosenblum, Yulia Lovsky, Orel Bechler and Gabriel Guendleman of the Chemical Physics Department in the Faculty of Chemistrin response to other electric currents,» says Dr. Barak Dayan, head of the Weizmann Institute's Quantum Optics group, including Itay Shomroni, Serge Rosenblum, Yulia Lovsky, Orel Bechler and Gabriel Guendleman of the Chemical Physics Department in the Faculty of Chemistrin the Faculty of Chemistry.

So far, research in mid-IR group IV photonics has focused on silicon - based devices for shorter wavelengths due to its availability, low cost, maturity of fabrication processes, possibility for photonics - electronics integration and a good transparency.

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.

Nanometre - scale gold particles are intensively investigated for applications as catalysts, sensors, drug delivery devices and biological contrast agents and as components in photonics and molecular electronics.

The functionalized carbon nanotubes have significant prospects for further development, Doorn noted, including advances in functionalization chemistry; integration into photonic, plasmonic and metamaterials structures for further control of quantum emission properties; and implementation into electrically driven devices and optical circuitry for diverse applications.

The optomechanical device used in this experiment is called a «photonic crystal nanocavity» (PCN).

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.

Researchers at the Institute of Photonic Sciences (ICFO) have developed a lab - on - a-chip device that can detect protein cancer markers in a drop of blood, working as a very early cancer - detection system.

Published in Nature Communications, these devices are designed to combine the advantages of photonics and electronics on the same platform.

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