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Quantum entanglement is a useful tool also for high-power particle accelerators and quantum ion engines.



Quantum entanglement can use also for making new and powerful particle accelerators. If we think about the ability to use positronium or protonium as the beginning point of the electron-positron or proton-antiproton impacts. That thing can make it possible to adjust the impact point and energy levels in the matter-antimatter collision. 

A positronium is a pair of positrons and electrons that are orbiting each other. And the protonium is the proton and antiproton pair where those particles are orbiting each other. If those things are put in quantum entanglement that allows particle accelerators to create particle pairs, which energy level is the same. That thing makes it possible to create highly accurate high-energy particle collisions. 

Quantum entanglement makes it possible to create powerful particle accelerators. The system would base free-electron lasers. That kind of powerful, but lightweight particle accelerator would use two electron clouds. The particle accelerators will pump energy to the first electron cloud. 

And then, the wave motion of those electrons will aim at the second electron cloud. That thing makes it possible to use photons to accelerate those electrons. Because free electrons are sending that wave motion between each other. That thing maximizes the impact power. 


Quantum routers and quantum ion engines are the next-generation tools. 


Quantum entanglement makes it the system possible to create two electrons with the same energy level. That thing can be useful in the quantum router that routes information between two quantum systems. The ability to create the qubits that are operating just at the same time makes quantum systems more effective. 

This thing makes it possible to create new types of macro-size quantum systems. In this kind of system, quantum computers are acting as macro-size qubits. And that allows the creation of multiple internal quantum computing systems. 

But in quantum ion engines, the system creates quantum entanglement. Then the photons will send to the channel that connects those particles. Then those electrons will fly in different directions. That increases the power that impacts the front side of the ion engine. That kind of system could be useful in the new ion system that can revolutionize aviation and spaceflight. 



https://en.wikipedia.org/wiki/Positronium


https://en.wikipedia.org/wiki/Protonium

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