A.D. Nguyen scite author profile

The properties of fragments and light charged particles emitted in multifragmentation of single sources formed in central 36 A.MeV Gd+U collisions are reviewed. Most of the products are isotropically distributed in the reaction c.m. Fragment kinetic energies reveal the onset of radial collective energy. A bulk effect is experimentally evidenced from the similarity of the charge distribution with that from the lighter 32 A.MeV Xe+Sn system. Spinodal decomposition of finite nuclear matter exhibits the same property in simulated central collisions for the two systems, and appears therefore as a possible mechanism at the origin of multifragmentation in this incident energy domain.

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Experimental determination of fragment excitation energies in multifragmentation events

Marie¹,

Chbihi²,

Natowitz³

et al. 1998

Phys. Rev. C

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Independence of fragment charge distributions of the size of heavy multifragmenting sources

et al. 1998

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International audienceCharged product multiplicities and Z distributions were measured for single multifragmenting sources produced in collisions between Full-size image (<1 K) and Full-size image (<1 K) at the same available energy per nucleon. Z distributions are found identical for both reactions while fragment multiplicities scale as the charge of the total systems. A complete dynamical simulation, in which multifragmentation originates in the spinodal decomposition of a finite piece of nuclear matter resulting from an incomplete fusion of projectile and target, well accounts for this experimental observation

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Multifragmentation of a very heavy nuclear system (I): selection of single-source events

et al. 2001

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A sample of 'single-source' events, compatible with the multifragmentation of very heavy fused systems, are isolated among well-measured 155 Gd + nat U 36 A.MeV reactions by examining the evolution of the kinematics of fragments with Z ≥ 5 as a function of the dissipated energy and loss of memory of the entrance channel. Single-source events are found to be the result of very central collisions. Such central collisions may also lead to multiple fragment emission due to the decay of excited projectile-and target-like nuclei and so-called 'neck' emission, and for this reason the isolation of single-source events is very difficult. Event-selection criteria based on centrality of collisions, or on the isotropy of the emitted fragments in each event, are found to be inefficient to separate the two mechanisms, unless they take into account the redistribution of fragments' kinetic energies into directions perpendicular to the beam axis. The selected events are good candidates to look for bulk effects in the multifragmentation process.

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A.D. Nguyen

Multifragmentation of a very heavy nuclear system (II): bulk properties and spinodal decomposition

Experimental determination of fragment excitation energies in multifragmentation events

Independence of fragment charge distributions of the size of heavy multifragmenting sources

Multifragmentation of a very heavy nuclear system (I): selection of single-source events

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