Introduction to Many-Body Physics
出版时间:
2016-02
ISBN:
9780521864886
装帧:
精装
-
A modern, graduate-level introduction to many body physics in condensed matter, this textbook explains the tools and concepts needed for a research-level understanding of the correlated behavior of quantum fluids. Starting with an operator-based introduct Piers Coleman is a Professor in the Center for Materials Theory at Rutgers, The State University of New Jersey. A major contributor to the theory of interacting electrons in condensed matter, he invented the 'slave boson' approach to strongly correlated electron systems. He has a long-standing interest in highly correlated d- and f-electron materials, in novel forms of superconductivity and the unsolved problems of quantum criticality in metals. Introduction;
1. Scales and complexity;
2. Quantum fields;
3. Conserved particles;
4. Simple examples of second-quantization;
5. Green's functions;
6. Landau Fermi liquid theory;
7. Zero temperature Feynman diagrams;
8. Finite temperature many-body physics;
9. Fluctuation dissipation and linear response theory;
10. Electron transport theory;
11. Phase transitions and broken symmetry;
12. Path integrals;
13. Path integrals and itinerant magnetism;
14. Superconductivity and BCS theory;
15. Retardation and anisotrophic pairing;
16. Local moments and the Kondo effect;
17. Heavy electrons;
18. Mixed valence, fluctuations and topology;
19. Epilogue: the challenge of the future; Index.
-
内容简介:
A modern, graduate-level introduction to many body physics in condensed matter, this textbook explains the tools and concepts needed for a research-level understanding of the correlated behavior of quantum fluids. Starting with an operator-based introduct
-
作者简介:
Piers Coleman is a Professor in the Center for Materials Theory at Rutgers, The State University of New Jersey. A major contributor to the theory of interacting electrons in condensed matter, he invented the 'slave boson' approach to strongly correlated electron systems. He has a long-standing interest in highly correlated d- and f-electron materials, in novel forms of superconductivity and the unsolved problems of quantum criticality in metals.
-
目录:
Introduction;
1. Scales and complexity;
2. Quantum fields;
3. Conserved particles;
4. Simple examples of second-quantization;
5. Green's functions;
6. Landau Fermi liquid theory;
7. Zero temperature Feynman diagrams;
8. Finite temperature many-body physics;
9. Fluctuation dissipation and linear response theory;
10. Electron transport theory;
11. Phase transitions and broken symmetry;
12. Path integrals;
13. Path integrals and itinerant magnetism;
14. Superconductivity and BCS theory;
15. Retardation and anisotrophic pairing;
16. Local moments and the Kondo effect;
17. Heavy electrons;
18. Mixed valence, fluctuations and topology;
19. Epilogue: the challenge of the future; Index.
查看详情
暂无旧书在售
占位居中
