The LHC has made history again. The researchers found new particles in the quark-gluon plasma.
That is always a big thing. Those particles are telling about the thing. How the material is formed in the early moments of the universe. How does the quark-gluon plasma get its form that turned to the material as we know it?
Those "X" particles are not elementary particles. They are mesons that are forming two or four quarks. That means the finding is not so big as Higgs boson was. The new particles are telling something about the universe and its first moments. But the thing is that there are a lot of unexpected things in the universe.
The thing about mesons is that those short-living particles are well-known but same time mysterious. The mystery of mesons is why they don't form stable components like protons and neutrons. Three quarks form protons and neutrons. Those particles are long-living or stable elements of atoms.
But when neutrons and protons are getting out from the electron core they just split. The reason why lone neutrons split. Is that they cannot get more energy from the energy core. The orbiting electrons are sending energy to the nucleus of the atoms. And the energy between the nucleus of atoms and the electron core is two-way. That means the nucleus of atoms from the quarks to the entire nucleus is interacting.
When we are thinking about the ages of bosons. We must ask one question. Why bosons are not stable? Is there something that is missing in those structures? And is that thing the mysterious "God" particle or maybe the graviton that keeps protons and neutrons as one entirety?
As I just wrote three quarks are forming protons and neutrons. Between those quarks are traveling gluons. When gluon is jumping between quarks it just pushes them. That makes protons and neutrons send wave movement. That wave movement is traveling to electron cores. And electron cores of the atoms are getting energy also from other atoms.
While gluon is traveling in its quantum world there is a vacuum behind it. That quantum vacuum is pulling the quarks behind it. If the quark is in the line with that gluon.
When gluons are traveling away from the quark. That thing causes the quantum vacuum or "low-pressure quantum area". That quantum vacuum pulls quark back. So quarks move back and forth when the gluon hits against them.
And whenever the quark is changing its direction it stops for a while. That causes the thing that the quarks are sending wave movement. The wave movement that quarks send. Has the same wavelength as the diameter of the quarks is. Also, the gluons are sending a wave movement whose wavelength is the same as the diameter of the gluon. So could that radiation explain the mysterious dark energy?
https://scitechdaily.com/large-hadron-collider-first-detection-of-exotic-x-particles-in-quark-gluon-plasma/
https://thoughtsaboutsuperpositions.blogspot.com/
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