Journal ArticleDOI
A phenomenological model of deep-inelastic collisions between complex nuclei
TLDR
In this paper, a simple model of heavy-ion collisions is proposed, where classical equations of motion with inclusion of a phenomenological two-body friction force are integrated numerically along trajectories.About:
This article is published in Nuclear Physics.The article was published on 1976-06-21. It has received 70 citations till now. The article focuses on the topics: Phenomenological model & Inelastic collision.read more
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High-spin phenomena in atomic-nuclei
TL;DR: In this paper, a description of high-spin phenomena in atomic nuclei is presented from both the experimental and theoretical points of view, and the characteristic features of collective nuclear motion, such as rotational bands, band crossings, and backbending, as well as noncollective aspects, like high spin isomers and irregular decay patterns are discussed in detail.
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Deep inelastic transfer reactions — The new type of reactions between complex nuclei
TL;DR: In this article, a new type of nuclear reaction, deep inelastic transfe, which occurs in collisions of two complex nuclei is introduced and grounded, and experimental features of the new reaction are discussed: (1) intense dissipation of collision kinetic energy, (2) anisotropic angular distributions of the reaction products, (3) broad charge and mass distribution of the products, regularities of the cross sections of reaction exit channels, (5) the neutron-to-proton ratio of the product, and (6) the two-body character of the
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Transport theory of deeply inelastic heavy-ion collisions based on a random-matrix model. i. Derivation of the transport equation
TL;DR: In this paper, a random-matrix model is used to describe the transformation of kinetic energy of relative motion into intrinsic excitation energy typical of a deeply inelastic heavy-ion collision.
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Approaches to nuclear friction
TL;DR: In this article, a review summarises the present knowledge of experimental information on frictional effects in nuclear reactions and describes the theoretical approaches in detail, and the experimental evidence for nuclear friction stems from reactions where large-scale collective motion is involved, that is fission, deep inelastic heavy-ion scattering and giant excitations.
References
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Fusion of heavy nuclei in a classical model
TL;DR: In this paper, a quasi-elastic two-body potential is derived from the liquid drop model with inclusion of a finite range of interaction, and a large body of data on fusion barriers and fusion cross sections can be reproduced.
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Geometric properties of leptodermous distributions with applications to nuclei
TL;DR: In this paper, the relationship between geometrical properties of leptodermous distributions and optical-model potential wells was investigated and it was found that nuclear sizes imply a density for neutral symmetric nuclear matter corresponding to r0 = 1.16 fm (krmf = 1,31 fm−1) and that the densities and potentials can be related to each other by means of a saturating two-body interac1tion.
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Nuclear molecules and nuclear friction
TL;DR: Experimental data on transfer reactions in the /sup 40/Ar + /sup 232/Th system are interpreted in terms of nuclear orbiting combined with dissipation of energy due to the friction forces as discussed by the authors.
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On the mechanism of heavy ion collision leading to a compound system and to deep inelastic reactions
D.H.E. Gross,H. Kalinowski +1 more
TL;DR: In this paper, a model that describes the dynamics of heavy ion collisions leading into the compound system is presented, which is able to reproduce most of the data on the compound formation cross-section.
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Transfer reactions in the interaction of 40Ar with 232Th
TL;DR: In this article, transfer reactions in the bombardment of a 232 Th target with 297 MeV and 388 MeV 40 Ar ions have been studied and the dependence of the partial angular distribution of the light products on the reaction Q-value has been determined.