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There is a first time seen neutrinos in the LHC.

  

 There is a first time seen neutrinos in the LHC.



LHC (Large Hadron Collider) particle accelerator in CERN has first time detected neutrinos. Neutrinos are mysterious "almost like photon" particles. The thing that makes this observation special is that those neutrinos seem to be produced in LHC. 

And that thing is one of the most interesting things in history. This observation tells that production of synthetic neutrinos is possible. The large and powerful particle accelerators are used to accelerate particles to extremely high speed, and an attempt is to make them collide with neutrinos. 

The idea of those tests is to close the neutrino inside the particles like hadrons. If hadrons or shaper saying, baryon (proton) can close neutrino in its structure. That can make it possible to capture neutrinos between quarks. 

The thing that makes neutrinos special, is that the neutrino can travel through the planet without any kinds of interactions. That makes neutrinos special, and the fact is neutrino would be an extremely good tool for long-range quantum communication. But that thing requires the ability to produce synthetic neutrinos. The thing is that making this kind of process requires so powerful energy loads that they are not economic. 

But maybe in the future, the small-size fusion and thorium reactors. Are making it possible to equip all quantum computers with nuclear reactors. 

But that thing requires that the neutrino can be produced, trapped, and turn into a qubit. The problem is that neutrinos are located only in nature, and the possibility to make "synthetic" neutrinos is one of the most fascinating possibilities in history. 


https://scitechdaily.com/for-the-first-time-ever-physicists-detect-signs-of-neutrinos-at-large-hadron-collider/

Image: https://scitechdaily.com/for-the-first-time-ever-physicists-detect-signs-of-neutrinos-at-large-hadron-collider/




The interaction between hadrons

The next part of the text is connected with neutrinos because it handles the hadron interactions. The phi meson is interacting with the baryon proton. And that thing will open the new road to particle physics. The hadrons are particle groups that are acting like one particle. 

And that interaction between baryonic hadron and mesonic hadron. Is opening the road to understanding how the atoms and material are forming. What is the interaction that drives quarks to those formations that are called protons and neutrons?

The baryonic hadrons protons. And neutrons are forming most of the atoms. And the question is how quarks are forming those particles. One of the most fascinating questions in the universe is can also mesons form stable structures like protons and neutrons are forming. The thing is that this should be possible with all hadrons. But only stable formations atoms are formed of protons and neutrons. 


https://scitechdaily.com/cerns-alice-detector-takes-the-next-step-in-understanding-the-interaction-between-hadrons/


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


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


Image:https://en.wikipedia.org/wiki/Hadron


https://thoughtsaboutsuperpositions.blogspot.com/


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