Description
This volume includes the lectures delivered during the 2024 edition of the International School of Physics "Enrico Fermi" as part of the course Nuclear Physics from a Broad Perspective. Dedicated to the memory of Ricardo A. Broglia, this book reflects his extensive scientific interests in quantum many-body systems. The lectures cover a diverse range of topics in nuclear structure and reactions both from the theoretical and experimental point of view, including ab initio and density functional methods, collective excitations, shape coexistence, fission, gamma spectroscopy, direct reaction theory, pairing phenomena in nuclei and other fermionic systems.
The scientific activity of Ricardo Broglia.- Fermionic equations of motion in strongly correlated media applications to the nuclear many body problem.- Ab initio computations of atomic nuclei.- Nuclear Structure with state of the art.- Dipole excitations in atomic nuclei from Scissors Pygmies and Giants.- Indirect method for nuclear reactions and the role of the self energy.- Nuclear fission from a theoretical perspective.- Superfluidity in Fermi systems within the framework of Density Functional Theory.- Bose Einstein Condensation and Super fluidity in Ultra cold Atomic Gases.- Giant Dipole Resonance in hot nuclei.- Sub-barrier fusion and transfer reactions.
E. Vigezzi is a former Director of Research at the Istituto Nazionale di Fisica Nucleare (INFN) based in Milano, Italy. As a specialist in theoretical nuclear structure, one of his main research interests addresses the variety of elementary modes of excitation and the interactions between them, their effects on pairing correlations and their study by direct reactions.
F. Barranco is a Full Professor at the University of Seville, Spain. He is a specialist in nuclear structure theory, with an emphasis in the study of pairing and collective effects on low-energy spectra. He has made important contributions to the recent developments in nuclear field theory, especially concerning its application to a variety of weakly-bound systems.
G. Potel has recently joined the University of Seville, after being appointed at the Facility of Rare Isotopes Beams (FRIB), in Michigan, and at the Lawrence Livermore National Laboratory, in California. He is a specialist in nuclear reaction theory, and in its connections to nuclear structure. In particular, he has worked extensively on the theoretical description of two-nucleon transfer processes in connection with the experimental study of pairing phenomena in nuclei.
