In some theories, the universe is a series of superpositioned particles. That means there should be possible to create a network of superpositions that fills the entirety. The thing is that the superposition cannot ever be fully perfect. The size or energy level of those particles is always a little bit different. The energy channel that travels through the quantum fields is always interacting with the other quantum fields.
When researchers are making superpositions in the laboratories, they are making the superposition or simply synchronization of the particles. By stressing them with the electromagnetic radiation. The thing is that the synchronization of the oscillation requires only enough long-term electromagnetic stress. And the time what this thing requires depends on the energy level of the radiation.
The thing is that after the Big Bang, some particles were superpositioned. And the fact is that if the size of the superpositioned particles is different than the original particle the wavelength that those particles send is different. And that means the other part of the superpositioned particles is invisible, especially in the case that another particle is a so-called virtual particle.
If we are thinking about the series of superpositions. The size of the particles would turn always smaller and smaller. The term of a virtual particle means that the size of the quantum field of the small particle is turning larger. And that means it turns to another particle. When superposition ends.
What if we could create the virtual hadrons? Hadrons are forming three quarks. Creating the virtual hadrons requires that the quantum field that is around quarks would transfer around quark or electron. The idea is that the power field around those particles will strengthen by using quantum annealing. Then the oscillation of the wanted hadron will transfer to those quantum fields.
That virtual particle will lose its power field. And it will disappear or turn to the original particles. Theoretically, electromagnetic radiation can use to create things like virtual protons by stressing quarks with electromagnetic radiation. In that case, the proton would superposition to quark. The protons are made of three quarks. So in the case of superposition, the system requires free quark.
Then the electromagnetic radiation is sent through a proton. Would send to quark or electron what increases its power field. In that case, the quantum field around three quarks that form protons would superposition to the lonely quark or electron. That thing would make it possible to create virtual particles.
A more interesting thing would be that if the quantum field that forms neutron can transmit around quark or electron. That thing makes it possible to create the virtual neutron. So the virtual particle is the power-, or quantum field that oscillates a similar way with the original particle but is formed around the smaller particle.
https://en.wikipedia.org/wiki/Hadron
https://thoughtsaboutsuperpositions.blogspot.com/
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