"Singlemindedly devoted to its job of educating potential many-particle theorists…deserves to become the standard text in the field." — Physics Today "The most comprehensive textbook yet published in its field and every postgraduate student or teacher in this field should own or have access to a copy." — Endeavor A self-contained, unified treatment of nonrelativistic many-particle systems, this text offers a solid introduction to procedures in a manner that enables students to adopt techniques for their own use. Its discussions of formalism and applications m... Read More
"Singlemindedly devoted to its job of educating potential many-particle theorists…deserves to become the standard text in the field." — Physics Today "The most comprehensive textbook yet published in its field and every postgraduate student or teacher in this field should own or have access to a copy." — Endeavor A self-contained, unified treatment of nonrelativistic many-particle systems, this text offers a solid introduction to procedures in a manner that enables students to adopt techniques for their own use. Its discussions of formalism and applications m... Read More
Description
"Singlemindedly devoted to its job of educating potential many-particle theorists…deserves to become the standard text in the field." — Physics Today "The most comprehensive textbook yet published in its field and every postgraduate student or teacher in this field should own or have access to a copy." — Endeavor A self-contained, unified treatment of nonrelativistic many-particle systems, this text offers a solid introduction to procedures in a manner that enables students to adopt techniques for their own use. Its discussions of formalism and applications move easily between general theory and direct use by offering illustrations of principles to specific cases. Chapters on second quantization and statistical mechanics introduce students to ground-state (zero-temperature) formalism, which is explored by way of Green’s functions and field theory (fermions), Fermi systems, linear response and collective modes, and Bose systems. Finite-temperature formalism is examined through field theory at finite temperature, physical systems at finite temperature, and real-time Green’s functions and linear response. Additional topics cover canonical transformations and applications to physical systems in terms of nuclear matter, phonons and electrons, superconductivity, and superfluid helium as well as applications to finite systems. Graduate students will find this text enormously practical in making the transition from taking courses in quantum mechanics to interpreting the vast quantity of literature concerning the many-body problem.
Reprint of the McGraw-Hill, New York, 1971 edition.
Details
Price: $34.95
Pages: 640
Publisher: Dover Publications
Imprint: Dover Publications
Series: Dover Books on Physics
Publication Date: 20th June 2003
Trim Size: 5.5 x 8.5 in
Illustration Note: 149 Figs. 8 Tables
ISBN: 9780486428277
Format: Paperback
BISACs: SCIENCE / Physics / General
Table of Contents
Preface Part 1. Introduction 1. Second Quantization 2. Statistical Mechanics Part 2. Ground-state (Zero-temperature) Formalism 3. Green's Functions and Field Theory (Fermions) 4. Fermi Systems 5. Linear Response and Collective Modes 6. Bose Systems Part 3. Finite-Temperature Formalism 7. Field Theory at Finite Temperature 8. Physical Systems at Finite Temperature 9. Real-Time Green's Functions and Linear Response Part 4. Canonical Transformations Part 5. Applications to Physical Systems 11. Nuclear Matter 12. Phonons and Electrons 13. Superconductivity 14. Superfluid Helium 15. Applications to Finite Systems: The Atomic Nucleus Appendix A. Definite Integrals Appendix B. Review of the Theory of Angular Momentum Index
"Singlemindedly devoted to its job of educating potential many-particle theorists…deserves to become the standard text in the field." — Physics Today "The most comprehensive textbook yet published in its field and every postgraduate student or teacher in this field should own or have access to a copy." — Endeavor A self-contained, unified treatment of nonrelativistic many-particle systems, this text offers a solid introduction to procedures in a manner that enables students to adopt techniques for their own use. Its discussions of formalism and applications move easily between general theory and direct use by offering illustrations of principles to specific cases. Chapters on second quantization and statistical mechanics introduce students to ground-state (zero-temperature) formalism, which is explored by way of Green’s functions and field theory (fermions), Fermi systems, linear response and collective modes, and Bose systems. Finite-temperature formalism is examined through field theory at finite temperature, physical systems at finite temperature, and real-time Green’s functions and linear response. Additional topics cover canonical transformations and applications to physical systems in terms of nuclear matter, phonons and electrons, superconductivity, and superfluid helium as well as applications to finite systems. Graduate students will find this text enormously practical in making the transition from taking courses in quantum mechanics to interpreting the vast quantity of literature concerning the many-body problem.
Reprint of the McGraw-Hill, New York, 1971 edition.
Price: $34.95
Pages: 640
Publisher: Dover Publications
Imprint: Dover Publications
Series: Dover Books on Physics
Publication Date: 20th June 2003
Trim Size: 5.5 x 8.5 in
Illustrations Note: 149 Figs. 8 Tables
ISBN: 9780486428277
Format: Paperback
BISACs: SCIENCE / Physics / General
Preface Part 1. Introduction 1. Second Quantization 2. Statistical Mechanics Part 2. Ground-state (Zero-temperature) Formalism 3. Green's Functions and Field Theory (Fermions) 4. Fermi Systems 5. Linear Response and Collective Modes 6. Bose Systems Part 3. Finite-Temperature Formalism 7. Field Theory at Finite Temperature 8. Physical Systems at Finite Temperature 9. Real-Time Green's Functions and Linear Response Part 4. Canonical Transformations Part 5. Applications to Physical Systems 11. Nuclear Matter 12. Phonons and Electrons 13. Superconductivity 14. Superfluid Helium 15. Applications to Finite Systems: The Atomic Nucleus Appendix A. Definite Integrals Appendix B. Review of the Theory of Angular Momentum Index
