Add to ORKGCollective flow of nuclear matter probes the dynamics of heavy-ion reactions and can provide information about the nuclear-matter equation of state. In particular, the incident energy dependences of collective flow may be a sensitive means to deduce the existence of a Quark Gluon Plasma phase in the equation of state. Collective flow measurements from 30 A MeV to 200 A GeV incident energies are briefly reviewed. Preliminary results on collective flow from the WA98 experiment at the CERN SPS are presented
AbstractThe isospin-dependent quantum molecular dynamics model is used to investigate the nuclear co...
Collective flows in heavy-ion collisions from AGS [(2–11)A GeV] to SPS [(40, 158)A GeV] energies are...
Collective flow has historically been an indicator that nuclear matter created in heavy ion collisio...
Recent experimental results on collective flow measurements from relativistic heavy-ion collider (RH...
Recent experimental results on collective flow measurements from relativistic heavy-ion collider (RH...
Recent experimental results on collective flow measurements from relativistic heavy-ion collider (RH...
Abstract. Fluid dynamical models preceded the first heavy ion accelerator experiments, and led to th...
Collective flow in heavy ion collisions was first observed experimentally more than a decade ago at ...
We review collective flow, its anisotropies, and its event-to-event fluctuations in relativistic hea...
Abstract. A brief introduction is given to the field of collective flow, currently being investigate
We review collective flow, its anisotropies, and its event-to-event fluctuations in relativistic hea...
We review collective flow, its anisotropies, and its event-to-event fluctuations in relativistic hea...
The ratio of (pseudo)rapidity density of transverse energy and the (pseudo)rapidity density of charg...
Int this talk the symmetry aspects of collective processes in high energy heavy ion collisions are d...
Collective flows in heavy-ion collisions from SIS (1 AGeV), AGS (2-11 AGeV) to SPS (158 AGeV) energi...
AbstractThe isospin-dependent quantum molecular dynamics model is used to investigate the nuclear co...
Collective flows in heavy-ion collisions from AGS [(2–11)A GeV] to SPS [(40, 158)A GeV] energies are...
Collective flow has historically been an indicator that nuclear matter created in heavy ion collisio...
Recent experimental results on collective flow measurements from relativistic heavy-ion collider (RH...
Recent experimental results on collective flow measurements from relativistic heavy-ion collider (RH...
Recent experimental results on collective flow measurements from relativistic heavy-ion collider (RH...
Abstract. Fluid dynamical models preceded the first heavy ion accelerator experiments, and led to th...
Collective flow in heavy ion collisions was first observed experimentally more than a decade ago at ...
We review collective flow, its anisotropies, and its event-to-event fluctuations in relativistic hea...
Abstract. A brief introduction is given to the field of collective flow, currently being investigate
We review collective flow, its anisotropies, and its event-to-event fluctuations in relativistic hea...
We review collective flow, its anisotropies, and its event-to-event fluctuations in relativistic hea...
The ratio of (pseudo)rapidity density of transverse energy and the (pseudo)rapidity density of charg...
Int this talk the symmetry aspects of collective processes in high energy heavy ion collisions are d...
Collective flows in heavy-ion collisions from SIS (1 AGeV), AGS (2-11 AGeV) to SPS (158 AGeV) energi...
AbstractThe isospin-dependent quantum molecular dynamics model is used to investigate the nuclear co...
Collective flows in heavy-ion collisions from AGS [(2–11)A GeV] to SPS [(40, 158)A GeV] energies are...
Collective flow has historically been an indicator that nuclear matter created in heavy ion collisio...