S. V. Akkelin, P. Braun-Munzinger, Yu. M. Sinyukov
Published 2001-11-16, updated 2002-07-10Version 4
Recent data on hadron multiplicities in central Pb+Pb collisions at 158A GeV/c at mid-rapidity are analyzed within the concept of chemical freeze-out. A non-uniformity of the baryon chemical potential along the beam axis is taken into account. An approximate analytical solution of the hydrodynamic equations for a chemically frozen Boltzmann-like gas is found. The Cauchy conditions for hydrodynamic evolution of the hadron resonance gas are fixed at the thermal freeze-out hypersurface from analysis of one-particle momentum spectra and HBT correlations. The proper time of chemical freeze-out and physical conditions at the hadronization stage, such as energy density and averaged transverse velocity, are found.
Comments: 21 pages including 3 figures, RevTex, semi-relativistic solution of hydrodynamics was used, submitted to Nucl. Phys. A
Journal: Nucl.Phys. A710 (2002) 439-465
Three-Particle Correlations from Parton Cascades in Au+Au Collisions
Directed flow at midrapidity in sqrt(s_NN)=2.76 TeV Pb+Pb collisions
Kinetic Freeze-out and Radial Flow in 11.6 A GeV Au+Au Collisions
