This book offers a compact tutorial on basic concepts and tools in quantum many-body physics, and focuses on the correlation effects produced by mutual interactions.The content is divided into three parts, the first of which introduces readers to perturbation theory. It begins with the simplest exam...

Ausführliche Beschreibung

Bibliographische Detailangaben

1. Verfasser:	Kuramoto, Yoshio (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Tokyo Springer [2020]
Schriftenreihe:	Lecture Notes in Physics Volume 934
Schlagworte:	bicssc bisacsh Superconductivity Superconductors Solid state physics Magnetism Magnetic materials Low temperature physics Low temperatures Statistical physics Physics Kondensierte Materie Störungstheorie Vielteilchentheorie Hardcover, Softcover / Physik, Astronomie/Elektrizität, Magnetismus, Optik
Zusammenfassung:	This book offers a compact tutorial on basic concepts and tools in quantum many-body physics, and focuses on the correlation effects produced by mutual interactions.The content is divided into three parts, the first of which introduces readers to perturbation theory. It begins with the simplest examples—hydrogen and oxygen molecules—based on their effective Hamiltonians, and looks into basic properties of electrons in solids from the perspective of localized and itinerant limits. Readers will also learn about basic theoretical methods such as the linear response theory and Green functions. The second part focuses on mean-field theory for itinerant electrons, e.g. the Fermi liquid theory and superconductivity. Coulomb repulsion among electrons is addressed in the context of high-Tc superconductivity in cuprates and iron pnictides. A recent discovery concerning hydride superconductors is also briefly reviewed. In turn, the third part highlights quantum fluctuation effects beyond the mean-field picture. Discussing the dramatic renormalization effect in the Kondo physics, it provides a clear understanding of nonperturbative interaction effects. Further it introduces readers to fractionally charged quasi-particles in one and two dimensions. The last chapter addresses the dynamical mean field theory (DMFT).The book is based on the author’s long years of experience as a lecturer and researcher. It also includes reviews of recent focus topics in condensed matter physics, enabling readers to not only grasp conventional condensed matter theories but also to catch up on the latest developments in the field
Beschreibung:	The book starts by explaining in detail the idea of the effective Hamiltonian, and explains how renormalization can be used to understand the difference between hydrogen and oxygen molecules concerning magnetism, before addressing more sophisticated uses of renormalization for Kondo systems and superconductivity, including multiple bands and with repulsive interactions. Emphasis is also placed on one-dimensional systems, which include Kondo impurity systems via certain mapping. The book then presents a self-contained description of the method of bosonization and re-fermionization, providing a clear understanding of nonperturbative correlation effects. It also explains the first quantization approach that extends to finite temperatures. With only a minimum of mathematics involved, readers will recognize how the quasi-particles obeying fractional statistics appear in low-dimensional systems Perturbation theory and effective Hamiltonians.- Itinerant and localized characters of electrons.- Linear response theory.- Fermi liquid theory.- Superconductivity.- Kondo effect ; One-dimensional electrons and bosonization.- From Pauli principle to exclusion statistics.- Many-body perturbation theory.- Dynamical mean-field theory
Beschreibung:	xi, 261 pages illustrations 427 grams
ISBN:	9784431553922