Buch, Englisch, 736 Seiten, Print PDF, Format (B × H): 170 mm x 244 mm
Reihe: Oxford Graduate Texts
A First Course on Integrability and the Bethe Ansatz
Buch, Englisch, 736 Seiten, Print PDF, Format (B × H): 170 mm x 244 mm
Reihe: Oxford Graduate Texts
ISBN: 978-0-19-791961-3
Verlag: Oxford University Press
An important task of theoretical quantum physics is the building of idealized mathematical models to describe the properties of quantum matter. This book provides an introduction to the arguably most important method for obtaining exact results for strongly interacting models of quantum matter—the Bethe ansatz method. It introduces and discusses the physical concepts and mathematical tools used to construct realistic models for a variety of different fields, including condensed matter physics and quantum optics. The various forms of the Bethe ansatz method—algebraic, coordinate, multicomponent, and thermodynamic Bethe ansatz and Bethe ansatz for finite systems—are then explained in depth and employed to find exact solutions for the physical properties of the integrable forms of strongly interacting quantum models.
The Bethe ansatz is one of the very few methodologies which can calculate physical properties non-perturbatively. Arguably it is the only such method we have which is exact. This means, once the model has been set up, no further approximations or assumptions are necessary, and the relevant physical properties of the model can be computed exactly. Furthermore, an infinite set of conserved quantities can be obtained. The quantum mechanical model under consideration is fully integrable. This makes the search for quantum models which are amenable to an exact solution by the Bethe ansatz methodology and which are quantum integrable so important and rewarding. The exact solution will provide important benchmarks for other models which do not admit an exact solution. In summary, Bethe ansatz techniques provide valuable insight into the physics of strongly correlated quantum matter.
Autoren/Hrsg.
Weitere Infos & Material
- 1: Introduction
- Part 1 Methods and Models in the Theory of Quantum Matter
- 2: Quantum Many-Particle Systems and Second Quantization
- 3: Angular Momentum
- 4: Equilibrium Statistical Mechanics
- 5: Phase Transitions, Critical Phenomena, and Finite-Size Scaling
- 6: Statistical Mechanics and Quantum Field Theory
- 7: Conformal Symmetry in Statistical Mechanics
- 8: Models of Strongly Interacting Quantum Matter
- Part 2 Algebraic Bethe Ansatz
- 9: Ice Model
- 10: General Square Lattice Vertex Models
- 11: Six-Vertex Model
- 12: Quantum Tavis-Cummings Model
- Part 3 Coordinate Bethe Ansatz
- 13: The Anisotropic Heisenberg Quantum Spin Chain
- 14: Bethe Ansatz for the Anisotropic Heisenberg Quantum Spin Chain
- 15: Bose Gas in One Dimension: Lieb-Liniger Model
- Part 4 Electronic Systems: Nested Bethe Ansatz
- 16: Electronic Systems
- Part 5 Thermodynamic Bethe Ansatz
- 17: Thermodynamics of the Repulsive Lieb-Liniger Model
- 18: Thermodynamics of the Isotropic Heisenberg Quantum Spin Chain
- Part 6 Bethe Ansatz for Finite Systems
- 19: Mathematical Tools
- 20: Finite Heisenberg Quantum Spin Chain
- References
- Index
