CP violation
This is a universe in which the phase of the surroundings determine the phase of scalar, standing wave permanent particles.
The reason that not more than .01% of this universe is anti matter is because the scalar waves of anti-matter are waves that the surroundings rapidly absorb.
The scalar waves of regular matter, however, are standing waves that are NOT absorbed by the surroundings.
Therefore: CP violation can only exist for a brief period before such anti-matter is absorbed and destroyed.
Fitz Read this recent article about CP violation
And then there were two 15 April 2005
The Belle collaboration at the KEK laboratory in Japan has reported the most accurate measurement to date of the angle ø3 in the "unitarity triangle" that describes the difference between matter and anti-matter in the Standard Model. The team used a technique known as Dalitz plot analysis to analyze the decays of charged B-mesons and their antiparticle equivalents (K Abe et al. 2005 arXiv.org/abs/hep-ex/0504013). By measuring all the angles in the unitarity triangle, and also the lengths of the sides, physicists hope to understand more about the violation of charge-parity (CP) symmetry in nature and why the universe does not contain equal amounts of matter and anti-matter.
CP violation is responsible for the difference between matter and antimatter in the Standard Model. CP violation means that the laws of physics change slightly when a particle is replaced by its antiparticle and all three directions in space are reversed. CP violation was first detected in kaons in 1964. However, it was not observed in another system until Belle and a similar experiment at Stanford called BaBar observed it in B-meson decays in 2001.
The amount of CP violation in the Standard Model is proportional to the area of the unitarity triangle. The base of this triangle is one unit long, so physicists need to measure the values of two more angles or lengths to calculate the area. However, the more angles and lengths they can measure, the better they can test and explore the model.
Fitz
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