Editors:
- Includes supplementary material: sn.pub/extras
Part of the book series: CRM Series in Mathematical Physics (CRM)
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Table of contents (8 chapters)
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Front Matter
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Numerical Methods
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Front Matter
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Lagrangian, Functional Integral, Renormalization Group, Conformal and Bosonization Methods
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Front Matter
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Functional Derivatives, Mean-Field, Self-Consistent Methods, Slave-Bosons, and Extensions
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Front Matter
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Back Matter
About this book
Focusing on the purely theoretical aspects of strongly correlated electrons, this volume brings together a variety of approaches to models of the Hubbard type – i.e., problems where both localized and delocalized elements are present in low dimensions. The chapters are arranged in three parts. The first part deals with two of the most widely used numerical methods in strongly correlated electrons, the density matrix renormalization group and the quantum Monte Carlo method. The second part covers Lagrangian, Functional Integral, Renormalization Group, Conformal, and Bosonization methods that can be applied to one-dimensional or weakly coupled chains. The third part considers functional derivatives, mean-field, self-consistent methods, slave-bosons, and extensions. Taken together, the contributions to this volume represent a comprehensive overview of current problems and developments.
Editors and Affiliations
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Département de Physique, Université de Sherbrooke, Sherbrooke, Canada
David Sénéchal, André-Marie Tremblay, Claude Bourbonnais
Bibliographic Information
Book Title: Theoretical Methods for Strongly Correlated Electrons
Editors: David Sénéchal, André-Marie Tremblay, Claude Bourbonnais
Series Title: CRM Series in Mathematical Physics
DOI: https://doi.org/10.1007/b97552
Publisher: Springer New York, NY
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eBook Packages: Springer Book Archive
Copyright Information: Springer Science+Business Media New York 2004
Hardcover ISBN: 978-0-387-00895-0
Softcover ISBN: 978-1-4757-8059-8
eBook ISBN: 978-0-387-21717-8
Series ISSN: 2627-7654
Series E-ISSN: 2627-7662
Edition Number: 1
Number of Pages: XVIII, 362
Topics: Condensed Matter Physics, Theoretical, Mathematical and Computational Physics, Strongly Correlated Systems, Superconductivity