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
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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