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CP-symmetry violation gives change to understanding the early universe.

We might call CP-symmetry matter-antimatter symmetry. " In particle physics, CP violation is a violation of CP-symmetry (or charge conjugation parity symmetry): the combination of C-symmetry (charge symmetry) and P-symmetry (parity symmetry). CP-symmetry states that the laws of physics should be the same if a particle is interchanged with its antiparticle (C-symmetry) while its spatial coordinates are inverted ("mirror" or P-symmetry). (Wikipedia/CP violation)

The Big Bang theory explains that the universe and material formed in the "big explosion". Today we can say that the Big Bang theory is oversimplified. We should describe the Big Bang as the case where materials reach a certain energy state. We cannot say was there dark matter or dark energy before the Big Bang? And the theory of a series of annihilations is pure theory. 

There is the possibility that the Big Bang was not a single and unique phenomenon. There is a possibility that the Big Bang was a series of annihilations there formed exotic particles. The crossing impact waves of annihilating particle-antiparticle pairs formed a Schwinger effect that made the material in the form we know it. 


"The LHCb collaboration at CERN has precisely measured two parameters linked to CP violation (matter-antimatter asymmetry) in beauty meson decays, using data from the Large Hadron Collider’s second run. These results, which fall in line with the Standard Model’s predictions, improve our understanding of differences between matter and antimatter, and could assist in identifying new physics phenomena". (ScitechDaily.com/CP Symmetry Violation: Large Hadron Collider Tightens Precision on Matter-Antimatter Asymmetry)

But the big question is why there were not as many materials- and antimatter particles. If we want to make an explanation. That could revolutionize physics and our knowledge of cosmology, we might say that at some point in the history of the early or young universe, there was some kind of radiation effect that turned the spin of some particles to the opposite. 

There is the possibility that the Schwinger effect formed particle-antiparticle pairs during the annihilation series. Then something caused an interference like a black hole that formed the situation where some particle-antiparticle-pairs went too far from each other. a

If we think that after the main Big Bang were many annihilation series where the Schwinger effect formed particle-antiparticle pairs we must confess that nobody knows how many annihilation sequences happened before the first stable particles formed. 

The thing, that makes CP-symmetry interesting is that in the early universe should be the same number of particle-antiparticle pairs, because if Schwinger effect created material that should form particles and antiparticles in pairs. And the question is, why there was more material than antimaterial? Where the missing antiparticles went before they formed an annihilation? Were there some more exotic particles than particle-antiparticle pairs? 

When we think about the early universe, there could be more particles than we know. And there is the possibility that the possible Schwinger effect formed when those lost particles annihilated. So in that model, there was material before the great annihilation, and the annihilation between those lost particles caused the situation where those impact waves crossed each other forming material in the form, as we know it. 


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


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