J. Barreto scite author profile

J. Barreto

5Publications

141Citation Statements Received

5Citation Statements Given

How they've been cited

266

123

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Affiliations

Oak Ridge National Laboratory, Washington University in St. Louis, Argonne National Laboratory

Publications

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Intermediate-Mass Fragment Decay of the Neck Zone Formed in Peripheral209Bi+136XeCollisions at
Tōke
¹
,
Lott
²
,
Baldwin
³

et al. 1995
Phys. Rev. Lett.

107

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Intermediate-mass fragments (IMF) from the 2"9Bi+'~6Xe reaction at E~, b/A = 28 MeV have been measured in coincidence with other reaction products, using a highly efficient 4~detector setup. Their emission patterns exhibit features consistent with dynamical fragmentation of a neck zone between the reaction partners, in addition to sequential statistical emission. In peripheral collisions with an average of 0.3 GeV of dissipated kinetic energy, the dynamical process accounts for 0.24 of the observed IMI multiplicity of 0.33.

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Binary character of highly dissipativeBi209+136<

et al. 1992

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Exclusive measurements of neutrons and charged products have been performed using a combination of 4/r neutron and 4n charged-particle detectors. The maximum observed energy dissipation corresponds to only approximately one-half of the available kinetic energy. For any degree of dissipation, the velocity distributions of charged particles are characteristic of sequential emission following binary collisions. The data imply that central collisions also lead to bimodal emission patterns or that they are not sufficiently well isolated by the requirement of high particle multiplicities. PACS numbers: 25.70.Lm During the last few years, considerable effort [1] has been devoted to the search for novel reaction mechanisms and nuclear decay modes that have been postulated for the Fermi energy domain [2-5]. Such novel reaction scenarios include the formation of inherently unstable, hot, and possibly compressed mononuclei that are predicted either to expand and eventually disintegrate into multiple fragments of intermediate mass (IMFs) or to vaporize into a multitude of light particles. Features similar to those expected for such processes have been observed in heavy-ion reactions at intermediate bombarding energies [6-11], but their interpretation is subject to considerable ambiguities. In order to resolve some of these ambiguities, the strategy adopted in the present work was to explore how the binary reaction dynamics characteristic of weakly dissipative, peripheral heavy-ion collisions evolves with increasing energy dissipation for the very heavy system 209 Bi+ ,36 Xe at 28.2 MeV per nucleon, i.e., at the lower boundary of the Fermi energy domain. As suggested by systematics established at lower bombarding energies [12], such a heavy system is likely to exhibit a gradual evolution of a rather uniform dissipative reaction mechanism over a significant range of impact parameters, which would simplify the detection of the onset of a new, competing process.The present paper reports on the first experiment of its kind in which almost full solid-angle coverage for both neutrons and charged particles was achieved. The experiment was performed at the National Superconducting Cyclotron Laboratory of the Michigan State University. A beam of 28.2 MeV per nucleon l36 Xe ions from the K1200 cyclotron was focused on a self-supporting 209 Bi target (1.5 mg/cm 2 ) placed in the center of the internal scattering chamber of the Rochester neutron multiplicity meter (NMM). The NMM, providing information on multiplicity and summed neutron energy, has an outer

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Dynamical production of intermediate-mass fragments in peripheral 209Bi+136Xe collisions at

et al. 1995

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Mechanism for the disassembly of excitedO16projectiles into four alpha particles

et al. 1992

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Dissipative Orbiting inB209i+X136<

et al. 1995

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J. Barreto

Intermediate-Mass Fragment Decay of the Neck Zone Formed in Peripheral209Bi+136XeCollisions at
Tōke
¹
,
Lott
²
,
Baldwin
³

et al. 1995
Phys. Rev. Lett.

Binary character of highly dissipativeBi209+136<

Dynamical production of intermediate-mass fragments in peripheral 209Bi+136Xe collisions at

Mechanism for the disassembly of excitedO16projectiles into four alpha particles

Dissipative Orbiting inB209i+X136<

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J. Barreto

Intermediate-Mass Fragment Decay of the Neck Zone Formed in Peripheral209Bi+136XeCollisions atTōke1, Lott2, Baldwin3 et al. 1995Phys. Rev. Lett.

Binary character of highly dissipativeBi209+136<

Dynamical production of intermediate-mass fragments in peripheral 209Bi+136Xe collisions at

Mechanism for the disassembly of excitedO16projectiles into four alpha particles

Dissipative Orbiting inB209i+X136<

Contact Info

Product

Resources

About

Intermediate-Mass Fragment Decay of the Neck Zone Formed in Peripheral209Bi+136XeCollisions at
Tōke
¹
,
Lott
²
,
Baldwin
³

et al. 1995
Phys. Rev. Lett.