| Foundations of Noncommutative Geometry and Basic Model Building | |
| Spectral Triples and Abstract Yang-Mills Functional | p. 4 |
| Spectral Triples | p. 4 |
| Universal Differential Graded Algebra | p. 5 |
| Vector Potentials, Universal Connections | p. 5 |
| Quotient Differential Graded Algebra | p. 6 |
| Inner Product | p. 7 |
| Curvature and Yang-Mills Functional | p. 8 |
| Real Spectral Triples and Charge Conjugation | p. 11 |
| Real Structures on Even Spectral Triples | p. 11 |
| <$>{\rm Spinc}^{\op C}<$> Manifolds and Charge Conjugation | p. 13 |
| Real Structures via Clifford Algebras | p. 15 |
| Real Structures of Odd Dimension | p. 17 |
| Relations to Real K-Homology | p. 18 |
| Real Structures on the NC Torus | p. 20 |
| The Commutative Case: Spinors, Dirac Operator and de Rham Algebra | p. 21 |
| The Theorems by Gel'fand and Serre-Swan | p. 21 |
| Hermitean Structures and Frames for Sets of Sections | p. 26 |
| Clifford and Spinor Bundles, Spin Manifolds | p. 28 |
| Spin Connection and Dirac Operator | p. 31 |
| The Universal Differential Algebra ¿C∞(M) and Connes' Differential Algebra ¿&Dslash;C∞ (M) | p. 33 |
| The Exterior Algebra Bundle ¿(M) and the de Rham Complex | p. 35 |
| ¿&Dslash;C∞ (M) Versus ¿(M) | p. 36 |
| Connes' Trace Formula and Dirac Realization of Maxwell and Yang-Mills Action | p. 40 |
| Generalities on Traces on C*- and W*-algebras | p. 40 |
| Examples of Traces | p. 43 |
| Examples of Singular Traces on B(<$>\cal {H}<$>) | p. 49 |
| Calculating the Dixmier Trace | p. 56 |
| The Connes' Trace Theorem and its Application, Preliminaries | p. 60 |
| Connes' Trace Theorem | p. 64 |
| Classical Yang-Mills Actions | p. 72 |
| The Einstein-Hilbert Action as a Spectral Action | p. 75 |
| Generalized Laplacians and the Heat Equation | p. 75 |
| The Formal Heat Kernel | p. 80 |
| Dirac Operators and Weitzenböck Formulas | p. 88 |
| Integration and Dixmier Trace | p. 91 |
| Variational Formulas and the Einstein-Hilbert Action | p. 93 |
| Einstein-Hilbert Action and Wodzicki Residue | p. 101 |
| Spectral Action and the Connes-Chamsedinne Model | p. 109 |
| The Spectral Action Principle | p. 109 |
| Example: Gravity Coupled to One Gauge Field | p. 111 |
| Asymptotic Expansion | p. 113 |
| First Example, Final Calculation | p. 117 |
| Gravity Coupled to the Standard Model | p. 127 |
| The Lagrangian of the Standard Model Derived from Noncommutative Geometry | |
| Dirac Operator and Real Structure on Euclidean and Minkowski Spacetime | p. 136 |
| ¿-Matrices on Flat and Curved Spacetime | p. 136 |
| Levi-Civita Connection and Dirac Operator | p. 144 |
| Real Structure on Spacetime | p. 147 |
| Trace Formulas and Inner Products | p. 150 |
| The Electro-weak Model | p. 152 |
| Noncommutative Matter Fields | p. 152 |
| Noncommutative Gauge Fields | p. 155 |
| Noncommutative Gauge Action Functional | p. 165 |
| Noncommutative Matter Action Functional | p. 170 |
| The Full Standard Model | p. 172 |
| Noncommutative Matter Fields | p. 172 |
| Noncommutative Gauge Fields | p. 179 |
| Noncommutative Gauge Action Functional | p. 206 |
| Noncommutative Matter Action Functional | p. 211 |
| Standard Model Coupled with Gravity | p. 216 |
| Generalized Dirac Operators | p. 216 |
| Spectral Action and Heat Kernel Invariants | p. 224 |
| The Higgs Mechanism and Spontaneous Symmetry Breaking | p. 230 |
| Historical Note | p. 230 |
| Spontaneous Symmetry Breaking and Goldstone Theorem | p. 232 |
| Spontaneous Symmetry Breaking in Yang-Mills Theory | p. 234 |
| The Case of the Electroweak Model: Bosonic Sector | p. 235 |
| Electroweak Model: Adding Quarks and Leptons | p. 238 |
| Remarks About Fermionic Mass Generation | p. 240 |
| New Directions in Noncommutative Geometry and Mathematical Physics | |
| The Impact of NC Geometry in Particle Physics | p. 244 |
| Why Noncommutative Geometry? | p. 244 |
| Spectral Triples | p. 245 |
| Technical Points | p. 247 |
| The Noncommutative Highway | p. 248 |
| Computation of Higgs and W Masses | p. 252 |
| Parameter Counting | p. 253 |
| The Renormalization Machinery | p. 255 |
| Noncommutative Relativity | p. 257 |
| Conclusions | p. 258 |
| The sw(2 | |
| Introduction and Motivation | p. 260 |
| The Bosonic Part of the Model | p. 260 |
| The Fermionic Part of the Model | p. 267 |
| The Connection to the Connes-Lott Model | p. 269 |
| Conclusions | p. 270 |
| Quantum Fields and Noncommutative Spacetime | p. 271 |
| Noncommutative Spacetime and Uncertainty Relations | p. 271 |
| Noncommutative Spacetime and Quantum Field Theory | p. 273 |
| Interactions and Noncommutative Geometry | p. 274 |
| Gauge Theories on Noncommutative Spacetime | p. 276 |
| NC Geometry and Quantum Fields: Simple Examples | p. 278 |
| Introduction | p. 278 |
| Preliminaries | p. 279 |
| Story I: Chern-Simons Terms from Effective Actions | p. 284 |
| Story II: Regularization: Elementary Examples | p. 286 |
| Story III: Regularized Traces of Operators | p. 288 |
| Story IV: Yang-Mills Actions from Dirac Operators | p. 294 |
| Final Remarks | p. 297 |
| Dirac Eigenvalues as Dynamical Variables | p. 299 |
| Introduction | p. 299 |
| Noncommutative Geometry and Gravity | p. 300 |
| From the Metric to the Eigenvalues | p. 303 |
| Action and Field Equations | p. 307 |
| Poisson Brackets for the Eigenvalues | p. 309 |
| Final Remarks | p. 311 |
| Hopf Algebras in Renormalization and NC Geometry | p. 313 |
| Introductory Remarks | p. 313 |
| The Hopf Algebra of Connes-Moscovici | p. 313 |
| Rooted Trees | p. 317 |
| Feynman Graphs and Rooted Trees | p. 319 |
| A Toy Model: Iterated Integrals | p. 321 |
| NC Geometry of Strings and Duality Symmetry | p. 325 |
| String Theory and T-duality | p. 325 |
| Interacting Strings and Spectral Triples | p. 328 |
| Compactification and Noncommutative Torus | p. 333 |
| Noncommutative Configuration Space and Spectral Geometry | p. 334 |
| Conclusions | p. 337 |
| References | p. 338 |
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