Abstract
The correlated ground state of deformed heavy nuclei is examined with relation to theK π=2+ excited states predicted by the Quasi Particle Random Phase Approximation. Both the schematic and the nonschematic treatments of the residual interaction are considered. The quasi particle density distribution over the available orbitals is analyzed for nuclei within the rare earth region. Relations between the quasi particle density matrix and one-nucleon-transfer amplitudes are derived and the reaction probabilities are studied as functions of the energy. It is found that a consistent description of nuclear ground state correlations (within the spirit of the quasi boson approximation) is obtained both with the schematic and the nonschematic treatments. Effects of the presence of different matrix elements of the residual interaction are discussed.
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On leave of absence from Universidad de La Plata, La Plata, Argentina.
The authors wish to acknowledge fruitful discussions with Prof. D. Bès and Dr. G. Dussel during the course of this work. It is also a pleasure to thank Prof. R. Broglia for interesting comments. One of us (A. P.) is also indebted to Profs. A. Faessler and H. Mang for enlightening discussions, and also wishes to thank Prof. A. Faessler for his hospitality at the Kernforschungsanlage Jülich. It is a duty to acknowledge the staff at the Computer Centre of the University of La Plata (CESPI) where the numerical task was performed.
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Hernández, E.S., Plastino, A. Gamma vibrations and the structure of the nuclear fermi surface. Z. Physik 268, 337–346 (1974). https://doi.org/10.1007/BF01669471
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DOI: https://doi.org/10.1007/BF01669471