Add to ORKGStrangeness enhancement is discussed as a feature specific to relativistic nuclear collisions which create a fireball of strongly interacting matter at high energy density. At very high energy this is suggested to be partonic matter, but at lower energy it should consist of yet unknown hadronic degrees of freedom. The freeze-out of this high density state to a hadron gas can tell us about properties of fireball matter. The hadron gas at the instant of its formation captures conditions directly at the QCD phase boundary at top SPS and RHIC energy, chiefly the critical temperature and energy density
The production of strange particles in a hot medium as produced in collisions of heavy ions is consi...
We review various aspects of strangeness production in relativistic heavy ion collisions from AGS to...
Within the framework of a schematic hadronic gas model we present the results of critical temperatur...
Strangeness enhancement is discussed as a feature specific to relativistic nuclear collisions which ...
21 pages, 13 figures, section on strange hadron production added per request of the referee, submitt...
Relativistic nucleus-nucleus collisions create a "fireball" of strongly interacting matter at high e...
We study the process of chemical equilibration of strangeness in dynamically evolving QGP fireball f...
Quantum Chromodynamics (QCD) predicts that under extreme conditions of energy density ( ≥ 2 GeV fm...
35 pages, 15 figures, presented at the Cracow School of Theoretical Physics, Zakopane, May 30 - June...
Analysis of hadron production experimental data allows to understand the properties of the dense mat...
Two major aspects of strange particle physics at the upcoming FAIR and NICA facilities and the RHIC ...
Boost-invariant hadron production in high-energy collisions occurs in causally disconnected regions ...
Strangeness production in heavy ion collisions is discussed in a broad energy range from SIS to RHIC...
Thermodynamical properties of hot and dense nuclear matter are analyzed and compared for different e...
We present a detailed study of chemical freeze-out in nucleus-nucleus collisions at beam energies of...
The production of strange particles in a hot medium as produced in collisions of heavy ions is consi...
We review various aspects of strangeness production in relativistic heavy ion collisions from AGS to...
Within the framework of a schematic hadronic gas model we present the results of critical temperatur...
Strangeness enhancement is discussed as a feature specific to relativistic nuclear collisions which ...
21 pages, 13 figures, section on strange hadron production added per request of the referee, submitt...
Relativistic nucleus-nucleus collisions create a "fireball" of strongly interacting matter at high e...
We study the process of chemical equilibration of strangeness in dynamically evolving QGP fireball f...
Quantum Chromodynamics (QCD) predicts that under extreme conditions of energy density ( ≥ 2 GeV fm...
35 pages, 15 figures, presented at the Cracow School of Theoretical Physics, Zakopane, May 30 - June...
Analysis of hadron production experimental data allows to understand the properties of the dense mat...
Two major aspects of strange particle physics at the upcoming FAIR and NICA facilities and the RHIC ...
Boost-invariant hadron production in high-energy collisions occurs in causally disconnected regions ...
Strangeness production in heavy ion collisions is discussed in a broad energy range from SIS to RHIC...
Thermodynamical properties of hot and dense nuclear matter are analyzed and compared for different e...
We present a detailed study of chemical freeze-out in nucleus-nucleus collisions at beam energies of...
The production of strange particles in a hot medium as produced in collisions of heavy ions is consi...
We review various aspects of strangeness production in relativistic heavy ion collisions from AGS to...
Within the framework of a schematic hadronic gas model we present the results of critical temperatur...