Clusters in Nuclei, Volume 1
Springer Science & Business Media, Sep 18, 2010 - Science - 316 pages
Following the pioneering discovery of alpha clustering and of molecular resonances, the field of nuclear clustering is presently one of the domains of heavy-ion nuclear physics facing both the greatest challenges and opportunities. After many summer schools and workshops, in particular over the last decade, the community of nuclear molecular physics decided to team up in producing a comprehensive collection of lectures and tutorial reviews covering the field. This first volume, gathering seven extensive lectures, covers the follow topics: * Cluster Radioactivity * Cluster States and Mean Field Theories * Alpha Clustering and Alpha Condensates * Clustering in Neutron-rich Nuclei * Di-neutron Clustering * Collective Clusterization in Nuclei * Giant Nuclear Molecules By promoting new ideas and developments while retaining a pedagogical nature of presentation throughout, these lectures will both serve as a reference and as advanced teaching material for future courses and schools in the fields of nuclear physics and nuclear astrophysics.
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1 Cluster Radioactivity
2 Coexistence of Cluster States and MeanFieldType States
3 Alphacluster Condensations in Nuclei and Experimental Approaches for their Studies
4 Cluster Structure of NeutronRich Nuclei Studied with Antisymmetrized Molecular Dynamics Model
5 DiNeutron Clustering and Deuteronlike Tensor Correlation in Nuclear Structure Focusing on 11Li
6 Collective Clusterization in Nuclei and Excited Compound Systems The Dynamical ClusterDecay Model
7 Giant Nuclear Systems of Molecular Type
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a-particle adiabatic AMD wave function angular momentum barrier binding energy channel cluster decay cluster model cluster radioactivity cluster structure collisions component conﬁguration coordinates core corresponding Coulomb Coulomb barrier D.N. Poenaru decay modes deﬁned density distribution deuteron-like tensor correlation di-neutron clustering doubly magic dynamics emission equation excitation energy ﬁeld ﬁgure ﬁrst ﬁssion ﬁxed Greiner ground band half-life halo structure Hamiltonian heavy nuclei Horiuchi Hoyle hybrid-VT model Ikeda isotopes Kanada-En’yo kinetic energy Kp ¼ Lett magic number mass asymmetry matrix elements mean-ﬁeld molecular orbitals neutron-rich Nucl nuclear system nuclei nucleon–nucleon nucleons observed obtained parameter parity particle Phys potential energy potential energy surface Prog proton quasi-ﬁssion R.K. Gupta radius reaction relative wave function resonance s-wave shape shell effects shell model shown in Fig single-particle spherical spin superdeformed superheavy tensor interaction ternary ﬁssion Theor theoretical three-body TOSM two-body UCOM valence neutrons