The Main Quark Reactions Led Universe to Its Present State

Abstract

Processes that forbidden in the gauge version of the Standard model but could occur in the very early Universe are considered. Quarks with the electric charge q = -2/3 scattered by bosons in the super- symmetric period of the Universe evolution could create the baryon world. The competitive reaction with quarks q = 2/3 could create the antibaryon universe. Other similar reactions with B-L gauge involving quarks with q = ±2/3, q = ±1/3 also took place as in the direct so and reverse chains of scattering reactions. Probably during the period of the electroweak anomaly at relatively low energies (10²-10³) GeV the CPT invariance might be spontaneously broken and the competitive chain started to weaken. Probable its decay was exponential during 10^-21 sec. Limitations on the baryon genesis and on some mechanisms to prevent erasing baryon asymmetry is discussed. The qualitative composition of quarks in protons and neutrons is clarified. The Universe started to expand when a difference of B-L=0, probably.