Add to ORKGWe consider the dependence of collective flow on the nuclear surface thickness in a Boltzmann--Uehling--Uhlenbeck transport model of heavy ion collisions. Well defined surfaces are introduced by giving test particles a Gaussian density profile of constant width. Zeros of the flow excitation function are as much influenced by the surface thickness as the nuclear equation of state, and the dependence of this effect is understood in terms of a simple potential scattering model. Realistic calculations must also take into account medium effects for the nucleon--nucleon cross section, and impact parameter averaging. We find that balance energy scales with the mass number as $A^{-y}$, where $y$ has a numerical value between 0.35 and 0.5, depending...
The effect of the nuclear equation of state on high-energy heavy-ion collisions is studied in two se...
The impression of mean field and spectator matter has been studied through the collision geometry de...
The surface tension sigma and the surface density thickness t of nuclear matter have been calculated...
We discuss the problems involved in extracting the nuclear equation-of-state from heavy-ion collisio...
Nuclear transport models are important tools for interpretation of many heavy-ion experiments and ar...
Angular and energy distributions of fragments emitted from fast nucleus-nucleus collisions (Ne--> U ...
We present an analysis of high energy heavy ion collisions at intermediate impact parameters, using ...
Streamer chamber data for collisions of Ar + KCl and Ar + BaI2 at 1.2 GeV/nucleon are compared with ...
Within the framework of an isospin-dependent Boltzmann-Uehling-Uhlen beck (BUU) model using initial ...
Quantum Molecular Dynamics (QMD) calculations of central collisions between heavy nuclei are used to...
Collisions between two nuclei have been modeled by numerical solution of classical approximations to...
We study the effects of the nuclear equation of state (EOS) on intermediate energy heavy-ion collisi...
International audienceProperties of excited nuclear matter are one of the main subject of investigat...
We study the effects of the nuclear equation of state (EOS) on intermediate energy heavy-ion collis...
We study effects of the mean field in hot compressed nuclear matter in the context of the Vlasov Ueh...
The effect of the nuclear equation of state on high-energy heavy-ion collisions is studied in two se...
The impression of mean field and spectator matter has been studied through the collision geometry de...
The surface tension sigma and the surface density thickness t of nuclear matter have been calculated...
We discuss the problems involved in extracting the nuclear equation-of-state from heavy-ion collisio...
Nuclear transport models are important tools for interpretation of many heavy-ion experiments and ar...
Angular and energy distributions of fragments emitted from fast nucleus-nucleus collisions (Ne--> U ...
We present an analysis of high energy heavy ion collisions at intermediate impact parameters, using ...
Streamer chamber data for collisions of Ar + KCl and Ar + BaI2 at 1.2 GeV/nucleon are compared with ...
Within the framework of an isospin-dependent Boltzmann-Uehling-Uhlen beck (BUU) model using initial ...
Quantum Molecular Dynamics (QMD) calculations of central collisions between heavy nuclei are used to...
Collisions between two nuclei have been modeled by numerical solution of classical approximations to...
We study the effects of the nuclear equation of state (EOS) on intermediate energy heavy-ion collisi...
International audienceProperties of excited nuclear matter are one of the main subject of investigat...
We study the effects of the nuclear equation of state (EOS) on intermediate energy heavy-ion collis...
We study effects of the mean field in hot compressed nuclear matter in the context of the Vlasov Ueh...
The effect of the nuclear equation of state on high-energy heavy-ion collisions is studied in two se...
The impression of mean field and spectator matter has been studied through the collision geometry de...
The surface tension sigma and the surface density thickness t of nuclear matter have been calculated...