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Gravitation has been the thing that allows to transport of information between two quantum worlds.

  Gravitation has been the thing that allows to transport of information between two quantum worlds. 



"Rice University physicists, in a study led by Qimiao Si, have bridged two quantum physics subfields by demonstrating that specific unchangeable topological states, crucial for quantum computing, can intertwine with alterable quantum states in certain materials. This discovery enables potential operations at significantly higher temperatures, offering immense functional promise." ( ScitechDaily.com/ Unraveling Quantum Secrets: Physicists Bridge Two Quantum Worlds)



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Could this be the model of quantum gravity? 


In that model, the quantum gravity forms when energy or wave movement is called "superstring". The reason why that superstring causes a gravitational effect is that it hits a particle. Two ways can make the pulling effect of that superstring. First, the superstring can form a lower energy area at the front of the particle. 


A) The superstring can transport energy into itself. That thing causes an effect where gravity pulls particles to the dominating center. 

B) The superstring can send energy waves to that quantum field. The energy travels over the particle's shell, and then it will travel backward of the particle. Then that wave movement acts like a rocket engine that pushes particles forward. 



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Doubling or multiplying quantum fields or subfields makes it possible to transport information between two quantum worlds. 


A quantum field or quantum halo surrounds every single particle in the universe. The quantum gravity is the asymmetry in that halo. The thing that can make information exchange between two particles possible and determine the direction where information flows is the "brightness" or the quantum field's size. Information always travels from a higher-energy object to a lower-energy object. 

When wave movement like gravitational waves travel between particles they transport information. When we think of the quantum halo or quantum fields around particles they are not homogenous. That means there are layers in those quantum fields. Those layers are so-called subfields. The system can also double subfields. In that case, doubling happens from inside to outside. If the resonance in that subfield is strong enough, that shakes the particle's shell. 

And that allows to transport of information between two different size particles or quantum states or quantum worlds. The reason that thing is hard to make is this: the quantum field around the particle acts like an atmosphere. The most distant layers from the core are at the low energy level. Or they are "thin". That means it's hard to raise the energy level in that particle so high that the resonance travels from the primary particle. Through the other particle's quantum field and reach the particle's nucleus. 

The information is also one name for energy. Information is also wave movement.  In the theoretical particle model, the superstring is the smallest or thinnest part of wave movement. 

Material is the stretched or ball-shaped form of superstrings. The ability to transport information between two quantum worlds means that the system can transport information between two or more quantum layers. 

Four fundamental interactions, strong nuclear interaction, weak nuclear interaction, electromagnetism, and gravitation are wave movements with different wavelengths. The sender of those waves is the transportation particle that transports the fundamental force. The photon can turn flat. And that thing gives photon particle and wave movement forms. 

So the ability to exchange information between quantum worlds makes it possible for the strong nuclear interaction can transform straight to electromagnetism. In that model, the strong nuclear interaction's wave movement will just transfer to the electromagnetic wave movement that has a longer wavelength than the strong nuclear interaction. 

In that model, the system connects electromagnetism with strong nuclear interaction. And theoretically, that can done by gluing the strong nuclear force's waves into electromagnetic waves.  However, practical solutions are more complicated than this model. 


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The gravitational interaction is the only interaction that is common for all particles. 


In some models, quantum gravitation is the hole or pothole in those quantum fields. That pothole pulls the quantum field from another particle to it. And that thing forms the energy channel that sends wave movement from the dominating particle to the recessive particle. And that wave movement is what travels to the recessive particle and sends wave movement that causes resonation in that recessive particle. 

That resonation travels from the point. Where that energy string impacts with particles through its shell. Then that wave movement travels back to the particle and acts like a jet- or rocket engine that pushes the particle forward. That interaction is quantum gravity. And other ways we can say: that those dominating and recessive particles exchange information. The thing that determines is particle dominating, or recessive is the size of that particle and its quantum field. 

The ability to transport information between two quantum worlds is a useful phenomenon for quantum computing. But it's much more than just quantum computing. The ability to transform strong nuclear interaction straight to electromagnetism causes interesting visions for the energy production of tomorrow. 

And that thing can exchange information between two quantum states or quantum forms. That thing makes it possible to transport information between binary and quantum computers. But that thing can make much more. The ability to transport information between two quantum worlds forms in effect, that doubles the quantum fields around particles. Doubling quantum fields is the thing, that makes it possible to transport information between different types of particles. 

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