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Study of strongly damped collisions in the reaction of 600-MeV 84 Kr on a 209 Bi target
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This article is published in Physical Review Letters.The article was published on 1974-10-28. It has received 79 citations till now.read more
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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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The statistical theory of nuclear reactions for strongly overlapping resonances as a theory of transport phenomena
TL;DR: In this paper, a unified microscopic statistical theory of preequilibrium and equilibrium processes of the compound nucleus, valid for mass numbers A ⪆ 40, light incident projectiles (A ′4), and for excitation energies a few MeV above neutron threshold or larger, is presented.
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Microscopic transport theory of heavy-ion collisions
TL;DR: In this article, drift and diffusion coefficients for the variables of mass fragmentation and excitation energy are studied for deeply inelastic collisions, and the transport coefficients are obtained in closed form as function of the parameters of the interaction matrix elements between nucleonic states and as functions of the binding energy of the intermediate rotating quasimolecular configuration.
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Quantum-statistical approach to gross properties of peripheral collisions between heavy nuclei
TL;DR: In this article, non-equilibrium quantum-statistical mechanics is applied to peripheral collisions between heavy nuclei (A≳40), where a large number of degrees of freedom are involved during the process.
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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.