"Illustration of nanolight pseudo-birefringence. Two-step excitation via a light-illuminated antenna and a sharp boundary efficiently excites higher-order light-matter waves (hyperbolic phonon polaritons) in a thin crystal layer on gold. Upon passing a precisely angled gold edge, the antenna-excited fundamental mode separates into different polariton orders propagating in distinct directions, creating a strong pseudo-birefringence effect that opens a new pathway for on-chip optical signal routing. Credit: Na Chen, Hanchao Teng, and Hai Hu." (ScitechDaily, Scientists Learn To Steer Light at the Nanoscale, Setting New Records)
"Researchers have introduced an innovative two-step excitation approach that makes it possible to efficiently generate and clearly separate different modes of hyperbolic polaritons."(ScitechDaily, Scientists Learn To Steer Light at the Nanoscale, Setting New Records)
"An international collaboration of scientists has introduced a new approach for generating and manipulating extremely confined light–matter waves called higher-order hyperbolic phonon polaritons (HPhPs). Using this method, the researchers achieved record levels of wave quality and travel distance. The technique also takes advantage of a sharply defined boundary to produce an effect known as pseudo-birefringence, allowing the waves to be separated and directed based on their mode." (ScitechDaily, Scientists Learn To Steer Light at the Nanoscale, Setting New Records)
The ability to steer light in the desired direction. Makes it possible. To create virtual photonic transistors and other virtual components. In that system, the three photonic lines, or quantum roll lines, can form a base, a collector, and an emitter. The light beam that closes the route of other light beams can act as a virtual router. And light that decays, another light wave can act as a virtual router. Those things are required on the nano-scale photonic processors.
Light is one form of electromagnetic radiation. And the same technology that can turn light can turn other electromagnetic wavelengths. Basically, nano- and quantum rolls can drive every type of wave movement into any direction that the system desires. These types of systems are tools that can make many things that were impossible before a reality. The nano- and quantum rolls can make electromagnetic radiation slide over the shell.
Researchers learn to steer. Light on a nanoscale. And that opens new visions to information and stealth technology. The new systems that can route light on nanoscale structures can make it possible to create new types of microchips. And another thing that. This technology can aim the light. Into the desired direction. This means that if the system can aim the light. Into the desired direction, which denies radiation reflection to the opposite direction.
The ability to aim the light in the direction of the surface, which means an observer who doesn’t stand in the direction of the light cannot see the object. These types of systems can be the ultimate stealth systems. The quantum rolls that aim photons can make things like laser shields possible. Those things can transfer energy. Into the desired direction. The laser system requires a certain time to transfer energy to the object.
So that it can burn a hole in it. The photonic system can spread the laser ray over the layer. And that denies energy transfer to the structure. Another thing is this. The photonic rolls can drive wave movement into desired directions. That makes it possible to create protection against radiation and particles. The nano-roll can make those things slide over the shell. This means those rolls. Can deny those things to touch the shell of the system.
And that helps to keep information in its form. The laying photon can transport information on the layer. The new photonic microchips require that ability. In the same way. Things like quantum light networks. Can use laying photons to transmit information in the system. The photon, or its curves, pushes wave movement into the tunnel. That connects two points in the quantum network.
https://scitechdaily.com/scientists-learn-to-steer-light-at-the-nanoscale-setting-new-records/
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