All around the world researchers are working to find new materials with new quantum abilities. Those new quantum abilities make the material intelligent, and some of those materials might also act as computers. Things like Rydberg's states in electron shells make extremely small-size quantum computers possible.
And this type of material makes it possible to create new types of nanotechnology that can create complicated structures automatically. That kind of technology makes things like T-1000-type liquid amoeba robots possible. Those amoeba robots can take many forms. And they can make many things that were SciFi before this true.
The new quantum states of the material make it possible to create solid, extremely strong structures that can make information travel through it. In that kind of material, the material structures are turning that way they allow information to tunnel through the material. And that thing makes the material a quantum ghost. If electrons of the atoms make photons travel through the atom without interaction. That makes material invisible.
In some models, the system will make skyrmions around the atoms. In that model, the skyrmions would make the quantum-roll system, that drives photons and wave movement in one direction through the material. That thing denies the echo from the material.
"RIKEN physicists have demonstrated a unique quantum state called the quantum anomalous Hall effect in a disk-like device, proving that edge states aren’t necessary for this process. The team demonstrated Laughlin charge pumping in a quantum anomalous Hall insulator using a layered, donut-shaped disk composed of different magnetic topological insulators. This discovery expands the potential for discovering more new electronic phenomena in such materials". (ScitechDaily.com/Unleashing Exotic States of Matter: RIKEN Proves Edges Unnecessary)
Things like Bose-Einstein condensate are also a new type of material. In Bose-Einstein condensate the atoms are at minimum energy levels. And there is the possibility to use nanotechnology to create minimum energy points even in large structures. In that case, laser rays that travel between two graphene layers that connect to the material's surface act as thermal pumps.
Those miniature thermal pumps are making the minimum energy points to the material. Those energy baskets allow material to expand or pump energy to those low-energy points. It makes material possible to stand higher energy levels and fast energy impulses.
The ability to create high-power pressure impulses making possible to levitate the object above the ground. Those high-power pressure impulses can also turn incoming objects away from their trajectories. The material can be two-layer graphene where are ions trapped between those layers. The energy impulses will stress those ions that are sending impulses to graphene. Or they can be gas-shaped loudspeakers. The ion clouds stress with radiation.
Highly advanced materials can make things like ion clouds there they will aim for oscillation. The electromagnetic oscillation allows the material can turn the ion cloud around it into a gas-shaped loudspeaker. The gas-shaped loudspeakers can send high-power pressure impulses around them. That thing allows the material to levitate. But those pressure impulses also can turn incoming objects away from their courses. There are no limits to the material research.
https://scitechdaily.com/unleashing-exotic-states-of-matter-riken-proves-edges-unnecessary/
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