Annihilation, gamma-ray lasers, and quantum entanglements are the ultimate combination.

Superluminal information allows next-generation rocket engineering. 

By using annihilation could be possible to create a superluminal information channel from another planet to Earth. The quantum entanglement also makes it possible to create a new type of maser-or laser system. And that system can also use in fundamental engines, as I wrote at the beginning of this text. 

Annihilation and quantum entanglement are powerful tools for creating next-generation rockets. The idea is that the quantum rocket forms the quantum entanglement group behind it. The system can use electrons for that thing. When quantum entanglements are ready. The system shoots positrons on the quantum entanglement's other side. This thing creates ultimate energy transmission through quantum entanglement. 

Quantum entanglement also makes it possible to create superluminal or faster-than-light communication. The idea in that kind of version of faster-than-light communication is that the system adjusts the distance between the superpositioned and entangled particle pairs. In that model, the quantum entanglement works like a stick. And there is no limit to the distance of that phenomenon. 

Superposition means that the system adjusts the oscillation of two elementary particles to the same frequency. Then the quantum bridge is formed between those particles. And there is no limit to how long the quantum entanglement can be. Quantum computers can maintain quantum entanglement for less than a minute. 

But if the system can use things like Bose-Einstein condensate and very highly accurate gamma-ray bursts.  The idea is that the gamma-ray laser brings energy to another side of quantum entanglement. The Bose-Einstein condensate will remove energy from another side of that quantum entanglement. 

Quantum entanglement helps to aim energy rays in gamma-ray laser. 

The gamma-ray laser can be the electron cloud. That is created around the electron line anchored in the middle of the magnetic field. The system can anchor those electrons in that line by using the electromagnetic shadow that is created by aiming a laser ray at the proton or neutron. Then the system will aim into the electron cloud around those electrons in the electron row. 

The gamma-ray that is forming in that annihilation affects that electron row that sends radiation from both sides of it. But if those electrons are in quantum entanglement. The energy travels from a higher energy level to a lower energy level. And that allows the creation of high-energy extremely thin gamma-ray pike. 

The gamma-ray laser's diagram. 

XXXXXXXXXXX

*-*-*-*-*-*-*-*

XXXXXXXXXXX

X=electron clouds

*-*= superpositioned and entangled electrons 

The positrons will aim at electron clouds. The gamma rays that form in that annihilation will impact that electron row. And quantum entanglement helps to aim the energy pike in the right direction. 

What researchers can make the quantum entanglement that can act like a seesaw? What if they can exchange the transmitting sides of quantum entanglement? 

The problem with quantum entanglement is that the other side must be at a higher energy level than another. So the quantum entanglement looks like a seesaw if we look at its energy level. The requirement for data transport is that its other side must be higher. And when both sides of quantum entanglement reach the same energy level there is forming standing wave between those particles. When the energy level in that string that connects those superpositioned and entangled particles turns higher than those particles, energy flow will push them away. 

If researchers want to maximize the time that quantum entanglement can keep its form. They must rise the energy level in the transmitting side of that particle pair to the maximum. And then decrease the receiving side's energy level to a minimum. That allows for maximizing the time that quantum entanglement can be in form. 

If the system can change the quantum entanglement's transmitting and receiving sides. That allows sending the result back to the sender by using the same line. But is that thing possible? Can the system exchange the energy levels of the particles that are forming quantum entanglement? The idea is that the system can send radiation to another side and then remove energy from another side. 

The system can use gamma rays that are transmitted to another side of quantum entanglement. Then to the other side would be shot by Bose-Einstein condensate. And that will remove almost all energy from it. Then the sides will change. The receiving sides will turn to the transmitting side by using gamma rays. Then the system soots the previous transmitting side by using Bose-Einstein condensate. 

The system requires extremely accurate energy pumping. And one version of that thing is to use another quantum entanglement. We can call that system a quantum- or gamma-ray laser. The idea is that the energy from the electron-positron annihilation will aim at another side of quantum entanglement. And that thing acts like a magic stick that aims the energy impulse to another side of quantum entanglement that transmits information. 

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