Add to ORKGThe recently discovered sharp peak in the K+/π+ ratio in relativistic heavy-ion collisions is discussed in the framework of the statistical model. In this model a rapid change is expected as the hadronic gas undergoes a transition from a baryon-dominated to a meson-dominated gas. The transition occurs at a temperature T=140MeV and baryon chemical potential μB=410MeV corresponding to an incident energy of sNN=8.2GeV. The maximum in the Λ/π ratio is well reproduced by the statistical model, but the change in the K+/π+ ratio is much less pronounced than the one observed by the NA49 Collaboration. The calculated smooth increase of the K−/π− ratio and the shape of the Ξ−/π+ and Ω−/π+ ratios exhibiting maxima at different incident energies is con...
A competitive, to the commonly used blast-wave, model describing the freeze-out hypersurface is appl...
We study the identified particle ratios produced at mid-rapidity (y<0.5) in heavy-ion collisions, al...
The present knowledge about hadrons produced in relativistic heavy ion collisions is compatible with...
AbstractThe recently discovered sharp peak in the K+/π+ ratio in relativistic heavy-ion collisions i...
AbstractThe recently discovered sharp peak in the K+/π+ ratio in relativistic heavy-ion collisions i...
The sharp peak in the K+/π+ ratio in relativistic heavy-ion collisions is discussed in the framework...
The recently discovered sharp peak in the excitation function of the K+/pi+ ratio around 30 A GeV in...
The present status of the thermal model is reviewed and the recently discovered sharp peak in the K ...
Using simple parametrizations of the thermodynamic freeze-out parameters extracted from the data ove...
The sharp peak in the K+/pi+ ratio in relativistic heavy-ion collisions is discussed in the framewor...
AbstractWe calculate the first four moments of baryon number, electric charge and strangeness fluctu...
We discuss the status of thermal model descriptions of particle ratios in central nucleus-nucleus co...
Preliminary experimental data for particle number ratios in the collisions of Au+Au at the BNL AGS (...
We present a detailed study of chemical freeze-out in p-p, C-C, Si-Si and Pb-Pb collisions at beam m...
Recent results for moments of multiplicity distributions of net protons and net-electric charge from...
A competitive, to the commonly used blast-wave, model describing the freeze-out hypersurface is appl...
We study the identified particle ratios produced at mid-rapidity (y<0.5) in heavy-ion collisions, al...
The present knowledge about hadrons produced in relativistic heavy ion collisions is compatible with...
AbstractThe recently discovered sharp peak in the K+/π+ ratio in relativistic heavy-ion collisions i...
AbstractThe recently discovered sharp peak in the K+/π+ ratio in relativistic heavy-ion collisions i...
The sharp peak in the K+/π+ ratio in relativistic heavy-ion collisions is discussed in the framework...
The recently discovered sharp peak in the excitation function of the K+/pi+ ratio around 30 A GeV in...
The present status of the thermal model is reviewed and the recently discovered sharp peak in the K ...
Using simple parametrizations of the thermodynamic freeze-out parameters extracted from the data ove...
The sharp peak in the K+/pi+ ratio in relativistic heavy-ion collisions is discussed in the framewor...
AbstractWe calculate the first four moments of baryon number, electric charge and strangeness fluctu...
We discuss the status of thermal model descriptions of particle ratios in central nucleus-nucleus co...
Preliminary experimental data for particle number ratios in the collisions of Au+Au at the BNL AGS (...
We present a detailed study of chemical freeze-out in p-p, C-C, Si-Si and Pb-Pb collisions at beam m...
Recent results for moments of multiplicity distributions of net protons and net-electric charge from...
A competitive, to the commonly used blast-wave, model describing the freeze-out hypersurface is appl...
We study the identified particle ratios produced at mid-rapidity (y<0.5) in heavy-ion collisions, al...
The present knowledge about hadrons produced in relativistic heavy ion collisions is compatible with...