Authors: Sylwester Kornowski
It is assumed that the asymmetric decays of neutral kaons and B mesons make an absolute distinction between matter and antimatter. Such asymmetric decays were observed in collisions of nucleons only. There are not experiments in which kaons and B mesons are produced in collisions of antinucleons only. Here, applying the Scale-Symmetric Theory (SST), we showed that internal helicity of created neutral kaons (according to SST, relativistic neutral kaon is a constituent of neutral B meson also) depend on internal helicity of colliding particles - nucleons are internally left-handed whereas antinucleons are right-handed. SST shows that there should not be some distinctions between decays of neutral kaons and B mesons created in collisions of matter only and in collisions of antimatter only. In reality, the matter-antimater asymmetry does not follow from different behaviour of matter and antimatter in weak interactions but from the external left-handedness of the initial inflation field. It caused that at the end of inflation there appeared more nucleons than antinucleons. Next, the return shock wave, carrying the additional nucleons, created the early Universe.
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[v1] 2017-05-01 15:21:32
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