Phenomenology of strangeness production at high energies

Abstract

The strange-quark occupation factor (γs) is determined from the statistical fit of the multiplicity ratio K+/π+ in a wide range of nucleon-nucleon center-of-mass energies (sNN). From this single-strange-quark-subsystem, γs(sNN) was parametrized as a damped trigonometric functionality and successfully implemented to the hadron resonance gas model, at chemical semi-equilibrium. Various particle ratios including K-/π-, /π-, and /π- are well reproduced. The phenomenology of γs(sNN) suggests that, the hadrons (γs raises) at sNN 7~GeV seems to undergo a phase transition to a mixed phase (γs declines), which is then derived into partons (γs remains unchanged with increasing sNN), at sNN 20~GeV.