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经典名著系列 共形场论 第2卷 英文版 (法)菲利普迪弗朗切斯科 著 2009年版

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经典名著系列 共形场论 第2卷 英文版
作者: (法)菲利普迪弗朗切斯科 著
出版时间:2009年版
内容简介
  《onformal Field Theory Vol.2(共形场论)》共18章,分为3个部分。第1部分——简介。第1章中对《onformal Field Theory Vol.2(共形场论)》涉及的相关概念进行了简单回顾。第2章是量子场论的一些基本概念,如自由玻色(费米)子,路径积分,关联函数,对称与守恒量,以及能动张量。第3章则涉及统计力学的一些基本概念,如玻尔兹曼分布,临界现象,重整化群和转移矩阵。
  第2部分——基础理论。首先,第4章介绍了全局的共形不变。然后,第5章详细论述了有关二维共形不变基本而重要的概念,内容包括初级场、关联函数、Ward恒等式、自由场、算子积展开和中心荷等等。第6章则是更为详细论述算子表述下的共形场论,此章的重点是Vimsoro代数:和顶点代数。随后两章论述了极小模型,极小模型是共形场论中最重要的模型之一。第9章和第10章分别介绍库仑气体和模不变,屏蔽算子和Verlinde公式等重要概念亦先后引入。第11、12两章分别介绍了Q-态Potts模型和二维Ising模型。
  第3部分——具有李群对称性的共形场论。第13章介绍了单李代数的一些基本内容,如单李代数的结构,最高权表示和特征标等等。第14章为仿射李代数(亦称Kac-Moody代数),内容基本与第13章平行。第15~17章,讨论的主题都是WZW(Wess-Zumino.Witten)模型。WZW模型是二维共形场论中另一个最重要的模型,它集中体现了二维共形场论的各种性质。最后一章,即18章为陪集构造。陪集构造是共形场论最重要的手段之一。对于物理学或是数学工作者而言,陪集构造方法将二维共形场论的研究带入到一个新的天地。
  《onformal Field Theory Vol.2(共形场论)》各章之后有大量的练习题,可检验和加深对所学内容的理解。
目录
8.A.3 The Singular Vectors |hr,s+rs”>:General Strategy
8.A.4,the Leading ActionofA△ r,1
8.A.5 Fusion at Work
8.A.6 The Singular Vectors |hr,s+rs>:Summary Exercises

9 The Coulomb-Gas Formalism
9.1 Vertex Operators
9.1.1 Corrclators of Vertex Operators
9.1.2 the Neutrality Condition
9.1.3 the Back ground Charge
9.1.4 the AnomalOUS OPES
9.2 Screening Operators
9.2.1 Physical and Vertex Operators
9.2.2 Minimal Models
9.2.3 Four-POint Functions:Sample Correlators
9.3 Minimal Models:General Structure of Correlation Functions
9.3.1 Conformal Blocks for the Four-Point Functions
9.3.2 Conformal Blocks for the N-Point Function on the Plane
9.3.3 Monodromy and Exchange Relations for Conformal Blocks
9.3.4 Conformal Blocks for Corrclators on a Surface of Arbitrary Genus
9.A Calculation of the Energy-Momentum Tensor
9.B Screened Vertex Operators and BRST Cohomology:A Proof of the Coulomb-Gas Representation Of Minimal Models
9.B.1 Charged Bosonic Fock Spaces and Their Virasoro Structure
9.B.2 Screened Vertex Operators
9.B.3 The BRST Charge
9.B.4 BRST Invariance and Cohomology
9.B.5 The Coulomb-Gas Representation Exercises

10 Modular Invariance
10.1 C0nformal Field Theory on the Torus
10.1.1 The Partition Function
10.1.2 Modular Invariance
10.1.3 Generators and the Fundamental Domain
10.2 The Free Boson on the Torus
10.3 Free Fermions on the Torus
10.4 Models with C=1
10.4.1 Compactified Boson
10.4.2 Multi-Component Chiral Boson
10.4.3 Orbifold
10.5 Minimal Models:Modular Invariance and operater Content
10.6 Minimal Models:Modular Transformations of the Characters

10.7 MinimaI Models:Modular lnvariant Partition Funcfions
10.7.1 Diagonal Modular Invariants
10.7.2 Nondiagonal Modular Invariants:Example of the Three-state Potts Model
10.7.3 Block-Diagonal Modular Invariants
10.7.4 Nondiagonal Modular Invariants Related to an Automorphism
10.7.5 D Seriesfrom Z2 OrbifoldS
10.7.6 The Classification of Minimal Models

10.8 Fusion Rules and Modular Invariance
10.8.1 verlindeS Formula for Minimal Theories
10.8.2 Counting Conformal Blocks
10.8.3 A General Proof of Verlindes Formula
10.8.4 Extended Symmetries and Fusion Rules
10.8.5 Fusion Rules of the Extended Theory of the Three-State Potts Model
10.8.6 A Simple Example of Nonminimal Extended Theory:The Free Boson at the Self-Dual Radius
10.8.7 Rational Conformal Field Theory:A Definition
10.A Theta Functions
10.A.1 The Jacobi Tripie Product
10.A.2 Theta Functions
10.A.3 DedekindS n Funcfion
10.A.4 Modular Transformations of Theta Functions
10.A.5 Doubling Identities Exercises

11 Finite-Size Scaling and Boundaries
11.1 Conformal Invariance on a Cylinder
11.2 Surface Critical Behavior
11.2.1 Conforrnal Field rnleory on the Upper Half-Plane
11.2.2 The Ising Model on the Upper Half-Plane
11.2.3 The Infinite Strip

11.3 Boundary Operators
11.3.1 Introduction
11.3.2 Boundary States and the Verlinde Formula

11.4 Critical Percolation
11.4.1 Statement of the Problem
11.4.2 Bond Percolation and the Q-state POtts Model
11.4.3 Boundary Operators and Crossing Probabilities Exercises

12 The Two-Dimensional Ising Modd
12.1 The Statistical Model
12.2 The Underlying Fermionic Theory
12.2.1 Fermion:Energy and Energy-Momentum Tensor
12.2.2 Spin

12.3 Correlation Functions on the Plane by Bosonization
12.3.1 the Bosonization Rules
12.3.2 Energy Correlators
12.3.3 Spin and General Correlators

12.4 The Ising Model on the Torus
12.4.1 The Partition Function
12.4.2 General Ward Identifies on the Torus

12.5 Correlation Functions on the Torus
12.5.1 Flermion and Energy Correlators
12.5.2 Spin and Disorder-Field Correlators

12.6 Bosonization on the Torus
12.6.1 The Tw0 Bosonizations of the Ising Model:Partition Functions and Operators
12.6.2 Compactified Boson Correlations on the Plane and or the Torus
12.6.3 Ising Correlators from the Bosonization of the Dirac Fermion
12.6.4 Ising Correlators from the Bosonization of Two Real Fermions
12.A Elliptic and Treta Function Identities
12.A.1 Generalities on Elliptic Functions
12.A.2 Periodicity and ZeroS of the Jacobi Theta Functions
12.A.3 Doubling Identifies Exercises
Part C CONOFRMAL FIELD THEORIES WITH LIE-GROUP SYMMETRY

13 Simple Lie Algebras
13.1 The Structure of Simple Lie Algebras
13.1.1 TheCartan-Wevl Basis
13.1.2 The Killing Form
13.1.3 Weigllts
13.1.4 Simple Roots and the Caftan Matrix
13.1.5 The Chevalley Basis
13.1.6 Dynkin Diagrams
13.1.7 Fundamental Weights
13.1.8 TheWeyl Group
13.1.9 Lattices
13.1.10 Normalization Convention
13.1.11 Examples

13.2 Highest-Weight Representations
13.2.1 Weights and Their Multiplicities
l3.2.2 Conjugate Representations
13.2.3 Quadratic Casimir Operator
13.2.4 Index of a Representation

13.3 Tableaux and Patterns (su(N))
13.3.1 Young Tableaux
13.3.2 Partitions and Orthonormal Bases
13.3.3 Semistandard Tableaux
13.3.4 Gelfand-Tsetlin Paaerns

13.4 Characters
13.4.1 WleylS Character Formula
13.4.2 The Dimension and the Strange Formulae
13.4.3 Schur Functions

13.5 Tensor Products:Computational Tools
13.5.1 The Character Method
13.5.2 Algorithm for the Calculation of Tensor Products
13.5.3 The Littlewood-Rchardson Rule
13.5.4 Berenstein-Zelevinsky Triangles
13.6 Tensor Products:A Fusion-Rule Point of View

13.7 Algebra Embeddings and Branching Rules
13.7.1 Embedding Index
13.7.2 Classification of Embeddings
13.A Properties of Simple Lie Algebras
13.B Notation for Simple Lie Algebras Exercises

14 Affine Lie Algebras
14.1 The Structure Of AfIine Lie Algebras
14.1.1 From Simple Lie Algebras to Affine Lie Algebras
14.1.2 The killing Form
14.1.3 Simple Roots,the Cartan Matrix and Dynkin Diagrams
14.1.4 The ChevalIcy Basis
14.1.5 Fundamental Weights
14.1.6 The Affine Weyl Group
14.1.7 Examples

14.2 Outer Automorphisms
14.2.1 Symmetry of the Extended Diagram and Group of Outer Auto morphisms
14.2.2 Action of Outer Automorphisms on Wleights
……
15 WZW Models
16 Fusion Rules in WZW Models
17 Modular Invariants in WZW Models
18 Cosets
References
Index


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