著者
Michel Francis Ohkubo Shigeo Reidemeister Guy
出版者
Published for the Research Institute for Fundamental Physics by Physical Society of Japan
雑誌
Progress of theoretical physics. Supplement (ISSN:03759687)
巻号頁・発行日
vol.132, pp.7-72, 1999-03-26
参考文献数
224
被引用文献数
102

We review the merits of the local potential approach in the description of elastic alphaparticle scattering and of alpha-cluster structure in medium-weight nuclei. We recall how optical model analyses of elastic scattering angular distributions, displaying an anomalous large angle enhancement, yielded unique optical potentials, whose real part is determined with good accuracy up to small internucleus distances, and we investigate their properties; we then analyze the general compatibility of these potentials with the microscopic requirements resulting from the constraints due to antisymmetrization, in the case of a system which was thoroughly investigated from a microscopic point of view, and whose spectroscopy is well agreed upon, that is, the ^<20>Ne=α+^<16>O system. The local potential approach is then applied to the ^<44>Ti=α+^<40>Ca system-which is the analogue of ^<20>Ne in the fp-shell-whose α-cluster spectroscopy remained unclear for a long time and for which microscopic calculations led to contradictory interpretations; not only does this simple model give a nice account of the energy location and intraband electromagnetic transition probabilities for the members of the ^<44>Ti ground state band, but it predicts the existence of excited alpha-cluster bands, which were subsequently identified experimentally in alpha-transfer experiments. The same approach is applied to the ^<40>Ca=α+^<36>Ar system, where similar predictions have recently been confirmed experimentally, and to other systems close to the sd-shell closure region. Finally the persistence of alpha-cluster structure in medium-weight and heavy nuclei is discussed within the local potential approach.