Functional Renormalization Group for Interacting Bosons
Details
The physics of interacting bosons in the phase with broken symmetry is very different from the physics in the symmetric phase. The Functional Renormalization Group (FRG) represents a powerful investigation method which allows the description of symmetry breaking with high efficiency. In this book we apply FRG for studying two different models in the broken symmetry phase. In the first part we consider the classical O(1)-model in the vicinity of the second order phase transition. Employing a truncation scheme based on relevance of coupling parameters we study the behavior of the RG-flow which is influenced by the competition between two characteristic lengths of the system. We calculate momentum dependent self-energy and study its dependence on both length scales. In the second part we apply the FRG-formalism to systems of interacting bosons in arbitrary spatial dimensions at zero temperature. We use a truncation scheme based on a non-local potential approximation which satisfy both exact relations postulated by Hugenholtz and Pines, and Nepomnyashchy and Nepomnyashchy. We discuss different scaling regimes and calculate the single-particle spectral density function.
Autorentext
Studied electrical engineering at the Kazan State University of Technology (RUS) and physics at the Technical University of Brunswick (GER). He acquired Dr.-Ing. from the Tupolev Technical State University of Kazan (RUS) and Dr. phil. nat. from the Goethe University of Frankfurt. He is currently working at the University of Augsburg.
Weitere Informationen
- Allgemeine Informationen
- GTIN 09783838110141
- Sprache Deutsch
- Genre Weitere Physik- & Astronomie-Bücher
- Anzahl Seiten 124
- Größe H220mm x B150mm x T8mm
- Jahr 2009
- EAN 9783838110141
- Format Kartonierter Einband
- ISBN 978-3-8381-1014-1
- Veröffentlichung 19.08.2009
- Titel Functional Renormalization Group for Interacting Bosons
- Autor Andreas Sinner
- Untertitel Application to the symmetry broken phase
- Gewicht 203g
- Herausgeber Südwestdeutscher Verlag für Hochschulschriften