Add to ORKGThe primary goal of colliding heavy nuclei at high energy is to obtain information on the hadronic matter equation of state at high density and temperature. Hydrodynamical models are well suited theoretically for such studies. However, the degree of applicability of such models to realistic size nuclei is still an open question. Comparisons are made between numerical calculations and experiment for Ar+KCl at 800 MeV per nucleon. The prospects for, and consequences of, heavier nuclei and much higher energy are discussed
Several investigations involving strongly interacting matter at high temperature and density are pur...
Heavy-ion collisions at very high colliding energies are expected to produce a quark-gluon plasma (Q...
The author discusses some problems which are connected with experimental study in the field of the r...
We present a study of the properties of the nuclear matter under extreme conditions of density and t...
The collective quark tube model (a new version of the big hadron model reformulated in terms of the ...
What do we know about nuclei? The literature of the last 20 or 30 years contains a wealth of fascina...
Experimental results on high energy nucleus-nucleus interactions are presented. The data are discuss...
Heavy ion collisions are an ideal tool to explore the QCD phase diagram. The goal is to study the eq...
The collision of large nuclei at relativisitic energies is the only known mechanism for creating and...
This 1-day workshop focused on phenomenological models regarding the specific question of the maximu...
Heavy-ion collisions at very high colliding energies are expected to produce a quark-gluon plasma(QG...
Quantum Chromodynamics, the microscopic theory of strong interactions, has not yet been applied to t...
Extreme states of matter are studied in collisions of heavy nuclei. In this thesis the behaviour of ...
We shall first discuss briefly two experiments which suggest that the study of high energy hadron co...
The parallel sessions on Heavy Ion Physics covered several areas of recent progress in characterizin...
Several investigations involving strongly interacting matter at high temperature and density are pur...
Heavy-ion collisions at very high colliding energies are expected to produce a quark-gluon plasma (Q...
The author discusses some problems which are connected with experimental study in the field of the r...
We present a study of the properties of the nuclear matter under extreme conditions of density and t...
The collective quark tube model (a new version of the big hadron model reformulated in terms of the ...
What do we know about nuclei? The literature of the last 20 or 30 years contains a wealth of fascina...
Experimental results on high energy nucleus-nucleus interactions are presented. The data are discuss...
Heavy ion collisions are an ideal tool to explore the QCD phase diagram. The goal is to study the eq...
The collision of large nuclei at relativisitic energies is the only known mechanism for creating and...
This 1-day workshop focused on phenomenological models regarding the specific question of the maximu...
Heavy-ion collisions at very high colliding energies are expected to produce a quark-gluon plasma(QG...
Quantum Chromodynamics, the microscopic theory of strong interactions, has not yet been applied to t...
Extreme states of matter are studied in collisions of heavy nuclei. In this thesis the behaviour of ...
We shall first discuss briefly two experiments which suggest that the study of high energy hadron co...
The parallel sessions on Heavy Ion Physics covered several areas of recent progress in characterizin...
Several investigations involving strongly interacting matter at high temperature and density are pur...
Heavy-ion collisions at very high colliding energies are expected to produce a quark-gluon plasma (Q...
The author discusses some problems which are connected with experimental study in the field of the r...