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作者S.Doniach、E.H.Sondheimer 编
出版社世界图书出版公司
出版时间2002-07
版次1
装帧平装
货号D
上书时间2023-07-13
A lot has happened in the field of condensed matter physics since the original edition of "Greens functions for Solid State Physicists" was published in 1974. Nevertheless, the book has helped introduce several generations of condensed matter physics graduate students to the very powerful ideas of quantum many body theory and some of their ap-plications, particularly those in the physics of itinerant magnetism and superconductivity that have nowadays come to be called "the correlated electron problem".
In preparing for the reprint edition, two new chapters have been added to the original text to provide an introduction to the recent de-velopments in this branch of condensed matter physics. Chapter 11 focuses on the understanding of the Kondo problem which grew out of the exact solutions developed in the mid 1970s. The accompanying growth of experimental work culminating in the discovery of the heavy fermion superconductors gave substance to the idea that Coulomb re-pulsion between electrons in a narrow band metal can actually lead to attraction between the electrons and resulting instabilities at low tem-peratures to either a superconducting or an antiferromagnetic state.
PREFACE TO THE IMPERIAL COLLEGE PRESS EDITION
PREFACE
INTRODUCTION: THE THEORY OF CONDENSED MATTER
CHAPTER 1 LATFICE DYNAMICS IN THE HARMONIC APPROXIMATION
1.1 The ground state energy
1.2 The ground state energy as an integral over coupling constant
1.3 The neutron scattering cross-section
1.4 The Green‘s function and its equation of motioff
1.5 The iteration solution of G
1.6 Summation of the iteration series
1.7 Calculation of the ground state energy and the neutron cross-section in terms of the phonon Green‘s function
CHAPTER 2 LATTICE DYNAMICS AT FINITE TEMPERATURES
2.1 The free energy in the harmonic approximation
2.2 The phonon temperature Green‘s function
2.3 The real-time Green‘s function and neutron scattering at finite temperatures
CHAPTER 3 THE FEYNMAN-DYSON EXPANSION
3.1 Zero-temperature theory: general formalism
3.2 Evaluation of the phonon Green‘s function at T= 0 by Feynman-Dyson perturbation theory
3.3 The Feynman-Dyson expansion at finite temperatures
3.4 Direct evaluation of the free energy by Feynman-Dyson perturbation theory
CHAPTER 4 THE XCATTERING OF FERMIONS BY A LOCALIZED PERTURBATION
4.1 Scattering of a single electron
4.2 Formulationg of the many-electon scattering problem in terms of fermion creation and annihiation oprtors
4.3 Single-electon Greens function
……
CHAPTER 5 ELECTONS IN THE PRESENCE OF MANY IMPURITIES-THE THEORY OF ELECTRICAL RESISTANCE IN METAS
CHAPTER 6 THE INTERACTING ELECTRON GAS
CHAPTER 7 THE MAGNETIC INSTABILITY OF THE INTERACTING ELECTORYGAS
CHAPTER 8 INTERACTING ELECTORN IN THE ATOMIC LIMIT
CHAPTER 9 TRANSICNT RESPOSIE OF THE FERMI GAS-THE X-RAY AND KONDO PROBLEMS
CHAPTER 10 SUPERCONDUCTVIIV
CHAPTER 11 STRONG CORRELATED ELECTRON SYSTMS HEAVY FERMIONS THE I-DIMENSIONAL ELECTION GAS
CHAPTER 12 HIGH T SUPERCONDUCTIVTIY
APPENDIX1 SECOND QUANTIZATION FOR FERMIONS AND BOSONS
APPENDIX2 TIME CORRELATION FUNCTIONS AND GREENS FUNCTIONS
BIBLIOGRAPHY
HISTORICAL NOTE ON GEORCE GREEN
INDEX
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