
This book is an introduction to the techniques of many-body quantum theory with a large number of applications to condensed matter physics. The basic idea of the book is to provide a self-contained formulation of the theoretical framework without losing mathematical rigor, while at the same time providing physical motivation and examples. The examples are taken from applications in electron systems and transport theory. On the formal side, the book covers an introduction to second quantization, many-body Green's function, finite temperature Feynman diagrams and bosonization. The applications include traditional transport theory in bulk as well as mesoscopic systems, where both the Landau-Büttiker formalism and recent developments in correlated transport phenomena in mesoscopic systems and nano-structures are covered. Other topics include interacting electron gases, plasmons, electron-phonon interactions, superconductivity and a final chapter on one-dimensional systems where a detailed treatment of Luttinger liquid theory and bosonization techniques is given. Having grown out of a set of lecture notes, and containing many pedagogical exercises, this book is designed as a textbook for an advanced undergraduate or graduate course, and is also well suited for self-study.
This text investigates the application of many-body quantum theory to condensed matter physics through a self-contained, mathematically rigorous framework. The authors, Henrik Bruus and Karsten Flensberg, utilize their experience in academic instruction to bridge the gap between abstract theoretical formalism and practical physical motivation. By synthesizing lecture notes into a structured volume, the book provides a systematic approach to understanding complex electron systems and transport phenomena.
What You Will Find
Scope Limits
Experts and educators frequently cite this work as a standard, accessible entry point for students transitioning into research-level condensed matter physics. Readers often note the balance between formal mathematical derivation and the inclusion of practical, modern applications in nano-structures.
Page Count:
435
Publication Date:
2004-01-01
Publisher:
OUP Oxford
ISBN-10:
0191057479
ISBN-13:
9780191057472
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