Not exact matches
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 techniques could someday lead to a bevy of novel
devices for electronics,
photonics, nanoscale machines, and possibly disease detection.
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.
«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 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.
«Patterning of
photonic crystals is critical
for the realisation of
photonic crystal displays and
for designing the special functions of
photonic crystal optical
devices.»
For example,
photonic crystals based on this design could be used to make large - volume single - mode laser
devices.
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 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 physics.
Black phosphorus is a particularly interesting post-graphene nanomaterial
for next generation
photonic and optoelectronic
devices.
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.
The team wanted to develop a
device that could plug directly into existing
photonic circuits and
for that, the most useful shape is a straight wire or waveguide.
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.
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.&raq
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.&raq
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.&raq
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.»
Weizmann Institute scientists have demonstrated
for the first time a
photonic router — a quantum
device based on a single atom that enables routing of single photons by single photons.
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.
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 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.
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.
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.
The
devices, called optical isolators, may help solve major data capacity and system size challenges
for photonic integrated circuits, the light - based equivalent of electronic circuits, which are used
for computing and communications.
Silicon
photonics, inventor of GHz silicon modulator, novel on - chip nanophotonics
devices, novel micron - size
photonic structures
for light manipulation, light confining structures to slow down, enhance, and manipulate light
* Expert at CMOS
device physics and MEMS / NEMS sensors
for IoT, life - sciences, micro-fluidics, BioSensors, and
photonics along with Investigation and evaluation of different technologies.
Tags
for this Online Resume: Troubleshooting on high and low power lasers, intel semiconductor, innovative technology, Silicon films that are used in the manufacture of Thin - Film Transistors, cleanroom years preferred, using
photonics measurement
devices.