Sentences with phrase «photonic structures»
"Photonic structures" refers to materials or devices that manipulate and control light. They are designed to have specific properties that enable the control, propagation, and manipulation of light waves, similar to how electronic structures manipulate and control electrons in electrical devices. These structures are important in fields such as optics, telecommunications, and photonics for various applications such as photon manipulation, light detection, and efficient light transmission. Full definition
LANP researchers and others have spent years developing techniques to bolster the field - intensity enhancement of photonic structures for single - molecule sensing and other applications.
sciencedaily.com
The researcher wrote in his LinkedIn profile that at TUE he was «responsible for conducting and organizing experiments, optimizing design of photonic structures, equipment procurement, scientific papers writing, [and holding] a journal club.»
In photonic structures, the rotational sense of the electric field, i.e., the light's polarization, depend on the propagation direction.
The method will really be fruitful if it can be used to make photonic structures out of other materials, such as metals, oxides, and ceramics that may have even better properties, such as not conducting electricity or absorbing light.
Marine mollusks can embed photonic structures into their curved shells without compromising shell strength; deep sea sponges evolved fiber optic cables to direct light to symbiotically living organisms; and brittlestars cover their skeletons with lenses to focus light into the body to «see» at night.
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
The team believes the novel cell wall structures of Saxifrages could one day help inform the manufacture of new bio-inspired optical devices and photonic structures for industry such as communication cables and fibre optics.
But the challenge remains to make the photonic structures large and thick enough to serve in computer chips and microlasers, he says.
«The key advance was to design a photonic structure that transmits visible light and reflects infrared light for a very wide range of angles,» explains Ilic.
She holds several patents for photonic structures that manipulate light and has published more than 100 technical papers.
Among experts, however, it was already known that light behaves differently when it is confined strongly in the transversal plane using so - called «photonic structures.»
Consequently, if we now bring a suitably prepared quantum emitter into the light field of a photonic structure, the strength of the interaction between the emitter and the light will depend on the light's propagation direction.
«As soon as light in a photonic structure travels in the opposite direction, the electric field rotates the other way around and the spin flips,» states Rauschenbeutel.
Such «photonic structures» currently are revolutionizing the fields of optics and photonics, and have opened up the new research area of «Chiral Quantum Optics.»
Specific areas of interest include, but are not limited to: nano - enabled PV devices containing nanostructured semiconductors, plasmonic materials, photonic structures, or conducting polymers; earth - abundant and environmentally benign materials for photovoltaic devices; photocatalytic or photoelectrochemical processes for the splitting of water into H2 gas, or for the reduction of CO2 to liquid or gaseous fuels.