The researchers made photons interact. And that makes it possible to create new metamaterials.

 The researchers made photons interact. And that makes it possible to create new metamaterials.

Photon collision is one of the things that is now possible. When photons collide, the higher-energy photon denies that the lower-energy photon continues in its direction. The photon collisions make it possible to adjust the power of the photon impact on other materials with very high accuracy. In this text, I handle photons as material. The ability to make photons and wave movement impact makes it possible to create new types of quantum and optical binary computers.

Because wave movement can keep a photon in its position. It is possible. Wave movement, targeted to superpositioned and entangled photons can keep quantum entanglement in their form when the difference between energy levels is lower than usual. In that case, wave movement pushes photons in both directions. And the only problem is how to secure information in those superposed and entangled photons.

"Researchers at CUNY ASRC have discovered a method to manipulate photons so they can collide and interact using tailored metamaterials. This breakthrough could lead to significant advances in telecommunications, optical computing, and energy applications. (Schematic drawing of a photon collision at a time interface.) Credit: Anna Umana, Advanced Science Research Center at the CUNY Graduate Center" (ScitechDaily/Collision Course: Electromagnetic Waves Interact in Groundbreaking Experiment)

"Artistic illustration depicts magnetic excitations of cobalt-phthalocyanine molecules, where entangled electrons propagate into triplons. Credit: Jose Lado/Aalto University" (ScitechDaily.com/Tricky Triplons: Scientists Create Artificial Quantum Magnet With Quasiparticles Made of Entangled Electrons)

The researchers at Aalto-Yliopisto created quantum magnets using superpositioned and entangled electron pairs. Those quantum magnets can revolutionize materials and quantum computing. Those quantum particles can also be used to make next-generation stealth layers that control the direction in which the photons move. That thing makes those layers invisible to the observer, who stands at the side of the object, which transfers photons horizontally.

Those Qauntum magnets that are introduced in the second image are things that can interact directly with each other. In that case, the system can communicate by using radio waves. Those triplons can interact as radio crystals, and that allows for the creation of new types of communication tools.

When we think of wave movement and its interaction with photons, it makes it possible to trap photons between quantum magnets. The triplons are tools that are quantum magnets. Researchers used superpositioned electron pairs to make triptons. And trapped photons can stop between those superpositioned and entangled electrons. Those electrons can transfer information to the photon, and then the system can use the trapped photons to transport information between those quantum triplon magnets.

https://scitechdaily.com/collision-course-electromagnetic-waves-interact-in-groundbreaking-experiment/?expand_article=1

https://scitechdaily.com/tricky-triplons-scientists-create-artificial-quantum-magnet-with-quasiparticles-made-of-entangled-electrons/

https://technologyandfuture4.wordpress.com/2023/08/24/the-researchers-made-photons-interact-and-that-makes-it-possible-to-create-new-metamaterials/