| Quantum Field Theory in Condensed Matter Physics 1999 Edition Contributor(s): Nagaosa, Naoto (Author), Heusler, S. (Translator) |
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ISBN: 3540655379 ISBN-13: 9783540655374 Publisher: Springer OUR PRICE: $170.99 Product Type: Hardcover - Other Formats Published: September 1999 Annotation: This book covers a broad range of important topics and recent developments in this field. First, the general language of quantum field theory is developed in a way appropriate for dealing with systems having a large number of degrees of freedom. This paves the way for a description of the basic processes in such systems, the emphasis being on phase transitions. Applications include various aspects of superfluidity and superconductivity, as well as a detailed description of the fractional quantum Hall liquid.This monograph addresses graduate students and researchers working in related disciplines looking for an approachable but thorough introduction to the field of condensed matter physics. |
| Additional Information |
| BISAC Categories: - Science | Physics - Quantum Theory |
| Dewey: 530.143 |
| LCCN: 99035358 |
| Series: Theoretical and Mathematical Physics |
| Physical Information: 0.65" H x 6.37" W x 9.56" (0.90 lbs) 206 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Why is quantum field theory of condensed matter physics necessary? Condensed matter physics deals with a wide variety of topics, ranging from gas to liquids and solids, as well as plasma, where owing to the inter- play between the motions of a tremendous number of electrons and nuclei, rich varieties of physical phenomena occur. Quantum field theory is the most appropriate "language", to describe systems with such a large number of de- grees of freedom, and therefore its importance for condensed matter physics is obvious. Indeed, up to now, quantum field theory has been succesfully ap- plied to many different topics in condensed matter physics. Recently, quan- tum field theory has become more and more important in research on the electronic properties of condensed systems, which is the main topic of the present volume. Up to now, the motion of electrons in solids has been successfully de- scribed by focusing on one electron and replacing the Coulomb interaction of all the other electrons by a mean field potential. This method is called mean field theory, which made important contributions to the explanantion of the electronic structure in solids, and led to the classification of insulators, semiconductors and metals in terms of the band theory. It might be said that also the present achievements in the field of semiconductor technology rely on these foundations. In the mean field approximation, effects that arise due to the correlation of the motions of many particles, cannot be described. |
