Proceedings of the Sixth Granada Workshop, Spain, Springer-Verlag,
Berlin, Heidelberg, 1984, 280 pp.
The present proceedings contain the lectures given at the Sixth Inteational Granada Workshop on "Mathematical and Computational Methods in Nuclear Physics", held in Granada (Spain), October 3rd-8th, 1983.
The lectures, covering various aspects of the many-body problem in nuclei, review present knowledge and include some unpublished material as well. Bohigas and Giannoni discuss the fluctuation properties of spectra of many-body systems by means of random matrix theories, and the attempts to search for quantum mechanical manifestations of classical chaotic motion. The role of spectral distributions (expressed as explicit functions of the microscopic matrix elements of the Hamiltonian) in the statistical spectroscopy of nuclear systems is analyzed by French. Zuker, after a brief review of the theoretical basis of the shell model, discusses a reformulation of the theory of effective interactions and gives a survey of the linked cluster theory. Goeke's lectures center on the mean-field methods, particularly TDHF, used in the investigation of the large-amplitude nuclear collective motion, pointing out both the successes and failures of the theory.
Contents
Chaotic Motion And Random Matrix Theories – (O. Bohigas, M.-J. Giannonii)
Spectral Averaging and Partition Functions – (J.B. French)
Mean Field Methods in Large Amplitude Nuclear Collective Motion – (К. Goeke, F. Grummer, P.-G. Reinhard)
Shells: Model and Theory – (A.P. Zuker)
Some Progress Towards "Universal" Effective Interactions – (J.M.G. Gomez)
On Some Properties of the Wigner Distribution Function of Spherical Nuclei – (J. Martorell, E. Moya De Guerra)
ATDHF: Its Scope and Limitations – (E. Moya De Guerra)
Dressed States, Nuclear Correlations and Quenching – (L. Chaves And A. Poves)
ATDHF Calculation of the 4He – 16O System – (D. Provoost, F. Grummer and K. Goeke)
The present proceedings contain the lectures given at the Sixth Inteational Granada Workshop on "Mathematical and Computational Methods in Nuclear Physics", held in Granada (Spain), October 3rd-8th, 1983.
The lectures, covering various aspects of the many-body problem in nuclei, review present knowledge and include some unpublished material as well. Bohigas and Giannoni discuss the fluctuation properties of spectra of many-body systems by means of random matrix theories, and the attempts to search for quantum mechanical manifestations of classical chaotic motion. The role of spectral distributions (expressed as explicit functions of the microscopic matrix elements of the Hamiltonian) in the statistical spectroscopy of nuclear systems is analyzed by French. Zuker, after a brief review of the theoretical basis of the shell model, discusses a reformulation of the theory of effective interactions and gives a survey of the linked cluster theory. Goeke's lectures center on the mean-field methods, particularly TDHF, used in the investigation of the large-amplitude nuclear collective motion, pointing out both the successes and failures of the theory.
Contents
Chaotic Motion And Random Matrix Theories – (O. Bohigas, M.-J. Giannonii)
Spectral Averaging and Partition Functions – (J.B. French)
Mean Field Methods in Large Amplitude Nuclear Collective Motion – (К. Goeke, F. Grummer, P.-G. Reinhard)
Shells: Model and Theory – (A.P. Zuker)
Some Progress Towards "Universal" Effective Interactions – (J.M.G. Gomez)
On Some Properties of the Wigner Distribution Function of Spherical Nuclei – (J. Martorell, E. Moya De Guerra)
ATDHF: Its Scope and Limitations – (E. Moya De Guerra)
Dressed States, Nuclear Correlations and Quenching – (L. Chaves And A. Poves)
ATDHF Calculation of the 4He – 16O System – (D. Provoost, F. Grummer and K. Goeke)