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The information could have a mass.

The information itself has a mass some scientists claim. And that thing causes an idea that maybe dark matter is some kind of empty bag or flat quantum field that travels in the universe. 

Researchers say that information has a mass. The thing that makes the mass of the information is the wave movement of the quantum fields. If we store information the things like electrons and protons. We must use wave movement for that thing.  The wave movement is affecting the mass of the particle. 

And the thing is that if we would aim the wave movement to the particle long time enough. That particle transforms into a black hole. This thing is an interesting thing to think about the form of material and its relationship to information. Some scientists claim that dark matter is information itself. And the idea of that is that dark matter is like some bag that travels through space. 

So is the dark matter like some kind of empty balloon? Which travels in space. The idea is that the darl matter is the remnant of some particle that turned into a 2D structure. 

The reason that dark matter doesn't interact with the material is that. It travels through the quantum fields of the material.  We can demonstrate this idea by comparing dark matter with an empty balloon. 

In this example, the material is like the mangle. The quantum fields of the material are rotating like the rolls of the mangle. And if we are putting the empty balloon to the mangle that doesn't cause resistance. 


https://futurism.com/the-byte/scientist-dark-matter-information


https://www.sciencealert.com/physicist-claims-information-has-mass-and-might-be-considered-a-state-of-matter




Image) "Artist impression. Of the observed out-of-equilibrium criticalities in graphene superlattices. The image illustrates the electron-hole creation process that occurs after electrons are accelerated to very high velocities. (Courtesy: Matteo Ceccanti and Simone Cassandra)" (Physicsworl/Schwinger effect seen in graphene)


The Schwinger effect can make long-term quantum entanglement possible. 


The Schwinger effect is the first time seen in graphene. And that thing can make the smaller and more effective quantum computers possible. One version of the system that increases the quantum system resistance is increasing the power of electricity which covers the outcoming effect under it. 

At this point, I must say that Swchwinger-effect is not the only way to create long-term quantum entanglement. In the Schwinger effect or Schwinger mechanism, electron-positron pairs form spontaneously in the extremely strong magnetic field. 


The idea of the Schwinger effect is that the material formed because of the effect of the strong electromagnetic field. That thing makes limits on the system. 


And if those positrons and electrons are in a strong electric field they or their quantum fields are rotating in opposite directions. That thing can cause the wave-particle duality. The Schwinger effect can use to create sterile particles that are useful to use in quantum computers. 

But the electron-positron pairs or positronium can use to create the long-term quantum entanglement. At first, the electrons that are trapped in graphene or Wigner crystals are affected by laser rays that should form the stable electron-positron pair. Then the data will transport to that particle pair by shooting it with photons. The energy of protons is traveling through the superpositioned electron-positron pair. 


https://futurism.com/the-byte/scientist-dark-matter-information


https://physicsworld.com/a/schwinger-effect-seen-in-graphene/


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


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


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


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


Image: https://physicsworld.com/a/schwinger-effect-seen-in-graphene/


https://miraclesofthequantumworld.blogspot.com/

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