Possibility of bottom-catalyzed matter genesis near to primordial QGP hadronization

Abstract

We study bottom flavor abundance in the early Universe near to a temperature TH150\,MeV, the condition for hadronization of deconfined quark-gluon plasma (QGP). We show bottom flavor abundance nonequilibrium lasting microseconds. In our study we use that in both QGP, and the hadronic gas phase (HG) b and b quarks near TH are bound in B-mesons and antimesons subject to CP violating weak decays. A coincident non-equilibrium abundance of bottom flavor can lead to matter genesis at required strength: a) The specific thermal yield per entropy is nbth/σ=10-1010-13. b) Considering time scales, millions of cycles of B-meson decays, and b b-pair recreation processes occur.