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Full Description
This volume, 106 of the Les Houches Summer School series, brings together applications of integrability to supersymmetric gauge and string theory.
The book focuses on the application of integrability and problems in quantum field theory. Particular emphasis is given to the exact solution of planar N=4 super-Yang-Mills theory and its relation with string theory on the one hand, and the exact determination of the low-energy physics of N=2 super-Yang-Mills theories on the other; links with other domains are also explored.
The purpose of the Les Houches Summer School was to bring together young researchers and specialists from statistical physics, condensed matter physics, gauge and string theory, and mathematics, to stimulate discussion across these different research areas.
Contents
1: Jesper Lykke Jacobsen: Integrability in statistical systems and quantum spin chains
2: Jörg Teschner: A guide to two-dimensional conformal field theory
3: Gordon W. Semenoff: Lectures on the holographic duality of gauge fields and strings
4: David Kosower: Introduction to Scattering Amplitudes
5: Konstantin Zarembo: Integrability in Sigma-Models
6: Sergei L. Lukyanov and Alexander B. Zamolodchikov: Integrability in 2D fields theory/sigma models
7: Fabian H. L. Essler: Applications of Integrable Models in Condensed Matter and Cold Atom Physics
8: Marius de Leeuw, Asger C. Ipsen, Charlotte Kristjansen, and Matthias Wilhelm: Introduction to Integrability and One-point Functions in N = 4 SYM and its Defect Cousin
9: Nikolay Gromov: Spectrum of N=4 SYM and the Quantum Spectral Curve
10: Shota Komatsu: Three-point Functions in N = 4 Supersymmetric Yang-Mills Theory
11: Vesily Pestun: Localization and N=2 supersymmetric field theory
