2004
DOI: 10.1016/j.nuclphysa.2004.07.001
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Fragmentation path of excited nuclear systems

Abstract: We perform a study of the fragmentation path of excited nuclear sources, within the framework of a stochastic mean-field approach. We consider the reaction 129 Xe + 119 Sn at two beam energies: 32 and 50 MeV/A, for central collisions. It is observed that, after the compression phase the system expands towards a dilute configuration from which it may recontract or evolve into a bubble-like structure. Then fragments are formed through the development of volume and/or surface instabilities. The two possibilities … Show more

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Cited by 30 publications
(32 citation statements)
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“…We follow two methods to include the fluctuations effects. The Stochastic Mean Field (SMF ) approach, [52,154,155], and a simplified procedure, computationally much easier [83,156,161,162], based on the introduction of density fluctuations by a random sampling of the phase space, (Phase Space Sampling, P SS). The amplitude of the noise is gauged to reproduce the dynamics of the most unstable modes [83].…”
Section: Stochastic Bnv Transport Theorymentioning
confidence: 99%
“…We follow two methods to include the fluctuations effects. The Stochastic Mean Field (SMF ) approach, [52,154,155], and a simplified procedure, computationally much easier [83,156,161,162], based on the introduction of density fluctuations by a random sampling of the phase space, (Phase Space Sampling, P SS). The amplitude of the noise is gauged to reproduce the dynamics of the most unstable modes [83].…”
Section: Stochastic Bnv Transport Theorymentioning
confidence: 99%
“…It is based on mean field transport theory with correlations from hard nucleon-nucleon collisions and with stochastic fluctuations acting on the mean phase-space trajectory. 8,9 Stochasticity is essential in order to allow the growth of dynamical instabilities with fragment production, and to obtain physical widths of distributions of observables. A detailed description of the procedure is given in ref.…”
Section: -7mentioning
confidence: 99%
“…as well as other equilibrium and non-equilibrium properties of nuclear matter far from its normal state [5][6][7][8][9][10][11]. Interpretation of the experimental results requires comparisons of data to predictions from transport models which take into account reaction dynamics.…”
mentioning
confidence: 99%