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Opportunities with exotic beams : proceedings of the Third ANL/MSU/JINA/INT RIA Workshop, Argonne National Laboratory, USA, 4-7 April 2006 /
This volume explores, explains, and supports the case for an advanced exotic beam facility from a theoretical perspective. The US nuclear physics community and the US Department of Energy are committed to building such a facility. The topics covered constitute a survey of present activities in nucle...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores Corporativos: | , , , , |
| Otros Autores: | |
| Formato: | Electrónico Congresos, conferencias eBook |
| Idioma: | Inglés |
| Publicado: |
Hackensack, NJ :
World Scientific,
©2007.
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| Colección: | Proceedings from the Institute for Nuclear Theory ;
v. 15. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Series Preface; Preface; CONTENTS; Coupled-Cluster Theory for Nuclei D. J. Dean; 1. Current perspectives in the study of nuclei; 2. Current progress in coupled-cluster theory for nuclei; 3. Future paths in coupled-cluster theory; Acknowledgments; References; Three-Body Decay of Nuclear Resonances A . S. Jensen, D. V. Fedorov, H. Fynbo, and E. Garrido; 1. Theoretical framework; 2. Short-range interactions; 3. Coulomb interaction and isopsin mixing for analog states; References; Some Challenges for Nuclear Density Functional Theory T. Duguet, K. Bennaceur, T. Lesinski and J. Meyer
- 1. Introduction2. Challenges; 2.1. Long term strategy; 2.2. Improvedphenomenology; 2.3. Connection to underlying methods; 2.4. Grounding beyond-mean-field DFT; 3. The Skyrme energy functional : use of ab-initio inputs; 3.1. Constraining the isovector effective mass m:; 3.2. Separation of the EOS into ( S , T ) channels; 4. Conclusions; Acknowledgments; References; Beta Decay, the r-process, and RIA J. Engel; 1. Introduction; 1.1. Beta-Decay Rates are Important; 1.2. Calculating Beta Decay is Hard; 2. Review of Approaches; 2.1. Macroscopic/Microscopic Mass Model + Schematic QRPA
- 2.2. Self Consistent Skyrme-HFB + QRPA2.3. Shell Model; 2.4. Density-Functional + Finite-Fermi-Systems Theory; 3. Development and Future of QRPA-like Approaches; 3.1. Future of HFB+QRPA Beta Decay; 3.2. Future of FFS Beta Decay; 4. Some Version of a Rare Isotope Accelerator Will be Useful; Acknowledgments; References; RIB Measurements for Stellar Core Collapse W. R. Hix, O.E.B. Messer, G. Martinez-Pinedo, K. Langanke, J. Sampaio, A . Mezzacappa and D. J. Dean; 1. Introduction; 2. Re-examination of the role of heavy nuclei; 3. Rate Sensitivity; 4. The role of RIB measurements; References
- Symmetry Methods for Exotic Nuclei P. van Isacker1. Introduction; 2. The Nuclear Shell Model; 2.1. Pairing interaction; 2.2. Quadrupole interaction; 3. The Interacting Boson Model; 4. Concluding Remark; References; New Developments in Nuclear Supersymmetry: Pick-up, and Stripping with SUSY a t RIA R. Bijker; 1. Introduction; 2. Dynamical supersymmetries in nuclear physics; 3. Supersymmetry in heavy nuclei; 3.1. One-nucleon transfer reactions; 3.2. Two-nucleon transfer reactions; 4. Nuclear supersymmetry in light nuclei; 5. Summary, conclusions and outlook; Acknowledgments; References
- Fermion Systems with Fuzzy Symmetries (Leveraging the Known to Understand the Unknown) K. Drumev and J. P. Vary J. P. Draayer, K . D. Sviratcheva, T. Dytrych, C. Bahri,1. Overview of algebraic fermion models.; 2. Symplectic Sp(4) pairing model.; 3. Pseudo-SU(3) plus intruder level model.; 4. No-core shell model plus Sp(3,R) extension.; Acknowledgments; References; Proton-neutron Asymmetry in Exotic Nuclei M. A . Caprio; 1. Introduction; 2. Dynamical symmetries; 3. Phase transitions; 4. Symmetry energy; 5. Conditions for asymmetry; 6. Conclusion; Acknowledgements; References