“With three atomic clouds whose spins (blue) are entangled with each other at a distance, the researchers can measure the spatial variation of an electromagnetic field. Credit: Enrique Sahagún, Scixel / University of Basel, Department of Physics” (ScitechDaily, Entangled Atoms Are Transforming How We Measure the World)
Quantum entanglement can revolutionize. How we see the world. In those systems, superpositioned and entangled particles can scan atoms. The superpositioned and entangled particle pair acts like a record player’s needle. If those particles are photons, that system can measure things like quarks and other subatomic particles. Quantum entanglement is the tool that can make ultra-secure communication possible.
Making quantum entanglement between atoms is more complicated than making superposition and entanglement between two elementary particles. The moving. An electron around the hydrogen atom makes superposition between two hydrogen atoms difficult. The electrons and quarks must be precisely at the same points.
And the more complicated the atoms. The problem is in the 3D structure. In superposition, every particle in the atom must be opposite to each other. And the quantum shadows must not disturb other particles. The atom groups. Or atom stacks can be put in superposition by using their quantum fields. If a collective quantum field surrounds an atom group, that field can be put into superposition with another identical field. The quantum fields are like two bottles. The transmitting side is above the receiving side, and the quantum channel that connects them. Is. Like a tube between them.
That field forms the channel to the recessive field. And at that point. Quantum teleportation is almost possible. If atoms at the farthest point from the quantum channel are in a higher energy level than the nearest atoms, that energy pushes those atoms through that quantum channel. That push can be made by using a laser. The lower-energy particle cloud pulls those higher-energy particles through the channel.
The fact is that. The atom cloud can move from. One point to another point. The system cannot stay in order. And that makes it impossible to teleport anything more complicated than atom clouds.
But the fact is that. Quantum entanglement can transport a lot of energy. At one point. This system works like this. The system makes the quantum entanglement between two particles. The transmitting part of the superposition and entanglement is locked into the frame. Then the system transmits.
High-power energy impulse to that frame. These types of systems can revolutionize communication and weapon technology. The quantum entanglement makes it possible to aim the radiation. Into one direction. The system can take the carbon atom. And then put it in the middle of the benzene ring.
The theoretical system includes two frames and carbon atoms. The system makes superposition and entanglement between those atoms. And then sends a high-energy impulse to the benzene ring that surrounds the transmitting carbon atom. Because energy or information travels in one direction in quantum entanglement, that is, a particle at the lower energy level.
This makes it possible to send ultimate energy loads by using that kind of system. The energy load can travel through the tube. There, the system pumps energy into that beam. And presses it into thin form. Another way can be the system. Puts an atom in the targeted object in a superposition and entanglement. Then the system sends an energy impulse into that atom. Through the quantum entanglement. That thing can break even a diamond into pieces.
https://scitechdaily.com/entangled-atoms-are-transforming-how-we-measure-the-world/
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