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Book
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Chapter
Nuclear Molecular Phenomena in Heavy Ion Collisions
One of the interesting and outstanding aspects of heavy-ion nuclear physics is that nuclear molecules can be formed during collisions between heavy ions1. The narrow resonances observed in the energy dependence o...
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Chapter
Electron-Positron Pair Creation in Relativistic Atomic Heavy Ion Collisions
The production of electron-positron pairs in relativistic atomic heavy ion collisions has been studied with increasing interest in the last years. With the notation “atomic collisions” we mean collisions with ...
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Chapter
Spin-Dependent Generalized Collective Model
In an advanced course on quantum mechanics a student learns that the Dirac equation is constructed from a linearization of the Klein-Gordon equation. Whereas the latter describes a particle with no spin the fo...
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Chapter
Energy Dependence of the Inverted Scattering Potentials of the 12 C + 12 C System in the Range E cm = 8–12 MeV
The quantum inverse scattering problem at fixed energy1 is solved in two steps. First the elastic differential scattering cross section is analysed by a minimization procedure2 to obtain a set of phase shifts. Th...
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Chapter
Production of Electron-Positron Pairs in Atomic heavy Ion Collisions at Relativistic Energies
The production of electron-positron pairs in relativistic atomic heavy ion collisions has been studied with increasing interest in the last years. With the notation ”atomic collisions” we mean collisions with ...
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Chapter
The Collective Spin of Nuclear Surface Vibrations
The free Schrodinger equation for collective multipole degrees of freedom is linearised so that energy and momentum operators appear only in first order. The wave functions solving the linearised equation carr...