Nuclear Superfluidity: Pairing in Finite SystemsCambridge University Press, 8.6.2005 Nuclear Superfluidity is an advanced text devoted exclusively to pair correlations in nuclei. It begins by exploring pair correlations in a variety of systems including superconductivity in metals at low temperatures and superfluidity in liquid 3He and in neutron stars. The book goes on to introduce basic theoretical methods, symmetry breaking and symmetry restoration in finite many-body systems. The last four chapters are devoted to introducing results on the role of induced interactions in the structure of both normal and exotic nuclei. The most important of these is the renormalization of the pairing interaction due to the coupling of pairs of nucleons to low energy nuclear collective excitations. This book will be essential reading for researchers and students in both experimental and theoretical nuclear physics, and related research fields such as metal clusters, fullerenes and quantum dots. |
Sisältö
1 | |
2 The pairing force and seniority | 33 |
3 The BCS theory | 52 |
4 Spontaneous symmetry breaking | 72 |
5 Pairing vibrations | 92 |
6 Phase transitions | 117 |
7 Plastic behaviour of nuclei and other finite systems | 154 |
8 Sources of pairing in nuclei | 170 |
Appendix C Useful relations in the treatment of collective modes | 297 |
Appendix D Particlevibration coupling | 299 |
Appendix E Model of the singleparticle strength function | 305 |
Appendix F Simple model of Pauli principle corrections | 308 |
Appendix G Pairing meanfield solution | 310 |
Appendix H Pairing in a single jshell | 320 |
Appendix I Fluctuations and symmetry restoration | 327 |
Appendix J RPA solution of the pairing Hamiltonian | 335 |
9 Beyond mean field | 204 |
10 Induced interaction | 219 |
11 Pairing in exotic nuclei | 257 |
Appendix A A brief résumé of second quantization | 280 |
Appendix B Single particle in a nonlocal potential | 292 |
Appendix K Vortices in nuclei | 349 |
Appendix L Josephson effect | 356 |
References | 361 |
374 | |
Muita painoksia - Näytä kaikki
Nuclear Superfluidity: Pairing in Finite Systems David M. Brink,Ricardo A. Broglia Esikatselu ei käytettävissä - 2023 |
Yleiset termit ja lausekkeet
amplitudes angular momentum Appendix approximation associated Barranco BCS theory binding energy Bohr and Mottelson Broglia calculated Chapter configurations contribution Cooper pairs correlation energy corresponding cross-section deformed density diagonal discussed effects experimental fact Fermi energy Fermi surface fermions Figure fluctuations function gauge space given in equation ground-state Hamiltonian Hartree-Fock induced interaction induced pairing inertia low-lying mass matrix elements mean-field modes moment of inertia motion Mottelson 1969 neutron stars normal nuclear nuclei nucleon–nucleon nucleons number of particles obtained operator orbital pairing correlations pairing force pairing gap pairing interaction pairing vibrations parameter particle number particle-hole particle-vibration coupling phonon Phys potential protons quadrupole quantum numbers quasiparticle renormalization resonance rotational band rotational frequency Section self-energy shell model shown in Fig single-particle energies single-particle levels spin superconductors superfluid surface vibrations symmetry time-reversal two-particle two-quasiparticle w-mass wavefunction zero