“Illustration showing photon emission from a nanodiamond and light directed by a bullseye antenna. Credit: SciTechDaily.com, inspired by Boaz Lubotzky” (ScitechDaily, Record-Breaking “Sparkle”: Scientists Unlock Diamond’s Quantum Potential)
Diamond’s new quantum potentials.
Diamond can have multiple new potentials. And one of them is that. The nanodiamond can act as a quantum switch. That can share information with the quantum receivers. This kind of system. Works like this. The transmitter sends information into the diamond, using the TCP/IP style networking protocol. Each of those data packages has a serial number. And when the quantum system sends those data packages. The nanodiamond transmits those data packages to the quantum receiver circle, which surrounds this diamond.
The system eliminates overlaying data packages and transports them to the receiver using different routes. That makes it possible to create a quantum network, or even a quantum computer, that can operate at room temperature. The system uses the diamond. To share optical information with the receivers that are around it. The diamond must be put. Into the position. Where its corners are aligned with those small-sized photovoltaic cells. Then those photovoltaic cells transform photonic information. Into the electric information. There is also a possibility that the system forms the Lorentz Strange Attractor around those nanodiamonds. That is one way to make them discuss with each other.
There is a possibility that nanodiamonds can make material invisible by aiming all radiation at a 90-degree angle to the material layer. And if that layer can conduct that energy in one direction, or below it, that makes the material invisible to an observer who looks at the layer from above. That thing means that. Diamonds aim all reflections in a direction that the reflection cannot reach the observer.
“Artist’s impression of two nuclear spins, remotely entangled via the geometric gate applied via the electron. Credit: Tony Melov / UNSW Sydney” (ScitechDaily, “Like Talking on the Telephone” – Quantum Breakthrough Lets Individual Atoms Chat Like Never Before). That means electrons travel around two atoms, making the structure. That looks like Lorentz’s Strange Attractor. The new thing could be that the quantum strings could surround two atoms. And that turns their quantum fields into a superposition. In this experiment, the quantum information exchange can happen between an atom’s nuclei. But if the system could make the superpositions. Over the electron shells. That would be an even bigger breakthrough.
“Lorenz's Strange Attractor” (Wikipedia)
And a new experiment made atoms discuss with each other.
The new way to make superposition between complex, or atom-scale systems, is based on Lorenz’s Strange Attractor. (Also Lorenz Attractor (Lorenz System), in this text, Strange Attractor, or Attractor)The system makes a superposition between the quantum fields that surround atoms. And that is one of the biggest things. In the history of quantum computing. Or, if we are sharp, that test made the atoms exchange information. The Lorentz Strange Attractor is the thing that could make it possible to create new types of data storage.
Those Strange Attractors can also make it possible to create the quantum superposition in the vacuum. But at high temperature. There are two ways to adjust the energy level of the Lorentz Strange Attractor. First is. To push outside energy to the Strange Attractor. The second way is to push the Attractor in the smaller form. If there is no place where that energy can go. That means the energy turns denser.
Theoretically, information can be surrounded by the Strange Attractor forever if there is no power loss. The Lorentz Strange Attractor means a system. We can call a quantum perpetual motion machine. In this text, Lorentz Strange Attractor, Strange Attractor, and Attractor mean the same thing.
The Lorentz Strange Attractor can harness energy from around it. And if an attractor cannot realease its energy, its power increases. The thing that makes the Butterfly Effect is that the butterfly that flaps its wings creates a hurricane. In a situation where the system cannot release its energy. This situation forms around those whirls that the butterfly forms. The outside wind cannot fill those whirls. Because there is a particle flow surrounding them.
Can the Lorenz’s Strange Attractor create a situation where a butterfly that flaps its wings creates a hurricane? That thing is possible in very stable systems. The requirement is that the wind. That which surrounds the whirl must have a high energy level, so that outside energy cannot break the whirl. So if a butterfly flaps its wings in a calm morning, when the energy level in the atmosphere is very low, it can create a situation where the airflow from around it cannot break the wind that moves around the whirl. The low pressure in the middle of the whirl keeps it in form.
And the whirl gets its energy from sunlight. When that whirl forms, the requirement for the butterfly effect is that the whirl must start to release its energy from the middle of it. If that energy flow goes up. And below the airflow that keeps the whirl in its shape. If that energy reflects to the whirl with energy that is too powerful, the flow that surrounds the whirl can’t keep it in. And that thing breaks the whirl.
One of the examples of the force of Lorentz’s Strange Attractor is the black hole. There, the gravity field forms the Strange Attractor. Along with the material that surrounds the center of the black hole. The outside matter, radiation, and quantum fields push the attractor in its form. That means. The black hole’s gravity field may look like number eight. This means the outside energy cannot crush the gravity field. This means that when the black hole forms, its gravitational field turns small and dense. Then it starts to feed things into itself.
There is a possibility that all quantum fields look like a Lorentz Strange Attractor. Those fields travel through their center. And if that thing is true. All particles are surrounded by the field. Which looks like eight. That field drives information into the particle, but it also throws that field away from the center. The name of that field depends on which fundamental interaction it transmits. This means that the fundamental interactions. Gravity, strong, and weak nuclear forces, and electromagnetism form the “eight”-shaped field. This thing means that the Strange Attractor explains things like gravitational waves.
Sometimes, the far side of the Attractor releases wave movement. The Strange Attractor packs energy into the crossing point. And another interesting thing is that. Will the field pull or push, depending on the energy flow in the Attractor? When energy flöow crosses an attractor, it can form a soliton. If energy travels in very thin wave packets that don’t touch each other, the soliton will not form. The soliton is the thing. That can pack the entire Attractor into one point. Or the soliton can also break the Attractor. But if the soliton forms the whirl inside it, and it can collect energy into a kinetic form, that can keep the Attractor in its form. The existence of the Attractor depends, in that case, on the Solitons ' or spinning standing waves’ ability to bind energy into it.
https://scitechdaily.com/record-breaking-sparkle-scientists-unlock-diamonds-quantum-potential/
https://scitechdaily.com/like-talking-on-the-telephone-quantum-breakthrough-lets-individual-atoms-chat-like-never-before/
https://en.wikipedia.org/wiki/Attractor
https://en.wikipedia.org/wiki/Butterfly_effect
https://en.wikipedia.org/wiki/Lorenz_system
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