Why is superluminal communication interesting?

Superluminal particles like hypothetical tachyons allow faster-than-light communication. Superluminal communication is interesting because of the information. That stored in a qubit has no time to change if a particle travels faster than light. One of the reasons for that is that superluminal communication requires a quantum channel that isolates the qubit from outside space. 

What means faster-than-light? It is a situation where a particle travels faster than usual. The idea is that in electromagnetic vacuum photons and other particles travel at the same speed. 

Superluminal communication is not faster-than-light communication. It's a communication where an information transporter travels faster than a photon transporter particle travels in normal space. For superluminal communication, the system creates a quantum channel. And then that channel allows photons, electrons, or some other particle to travel faster than they travel otherwise. 

If the particle travels in a wormhole or quantum channel. It rides with the wave movement. And that thing means that the energy or information will not travel between the particle and its environment. And that store's information in that particle. The problem with superluminal communication is to create the quantum channel. 

The idea of the wormhole is that the quantum tornado is a quantum vacuum. And that vacuum allows all particles are traveling at the same speed. Superluminal communication is the tool that would revolutionize science and all other things. 

If we want to get information about the FRB (Fast Gamma-Ray Bursts) or possible alien communication. We must get some kind of warning about that phenomenon. If we put a detector in the Kuiper's belt the problem is that signal travels to Earth at the speed of light. 

But superluminal communication allows sending a warning to radio telescopes. And researchers have time to turn those telescopes to receive those suddenly forming mysterious signals. But the problem is where researchers can get superluminal particles. 

The thing is that the wormhole is not an absolute phenomenon. There is the possibility. That system can create an electromagnetic, low-pressure channel that allows photons and other particles to travel faster than they otherwise travel. That thing base is the idea that the electromagnetic low-pressure will not include so many quantum fields. 

And that denies information or energy travel between particles and their environment so fast as it otherwise travels. The most extreme version of that thing is the Einstein-Rose bridge called gravitational wormhole which is a quantum vacuum in the gravitational tornado. 

Can we create the superluminal particles? 

One version of superluminal communication is quantum entanglement. The back-and-forth moving quantum entanglement can transmit information. 

But there is a way to make a quantum channel between two points. In a short distance, is possible to use two particles like neutrons and aim a laser ray over them. The neutron will create an electromagnetic shadow that acts like an electromagnetic channel. The hollow laser ray denies the effect of electromagnetic radiation in that channel. 

The idea is that the particles, like neutrons, will be connected. The north pole would point to the other neutron's south pole. And then the system starts to connect those two neutrons in opposite directions.

That creates an electromagnetic channel between those neutron's poles. Then the system will start to increase the distance between those neutrons. If the system's energy level is high enough, it should maintain the connection between those neutrons. There is a small quantum tornado between those neutrons. 

And if the system sends a photon to travel in that tornado the system can send the information to the receiver in the form qubit. The system is not a perfect wormhole. But it allows the photon to travel faster than outside it. 

https://scitechdaily.com/seemingly-defying-the-laws-of-physics-distinguishing-between-right-and-left-with-magnets/

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