| The path integral on the lattice | p. 1 |
| Hilbert space and propagation in Euclidean time | p. 2 |
| Hilbert spaces | p. 2 |
| Remarks on Hilbert spaces in particle physics | p. 3 |
| Euclidean correlators | p. 4 |
| The path integral for a quantum mechanical system | p. 7 |
| The path integral for a scalar field theory | p. 10 |
| The Klein-Gordon field | p. 10 |
| Lattice regularization of the Klein-Gordon Hamiltonian | p. 11 |
| The Euclidean time transporter for the free case | p. 14 |
| Treating the interaction term with the Trotter formula | p. 15 |
| Path integral representation for the partition function | p. 16 |
| Including operators in the path integral | p. 17 |
| Quantization with the path integral | p. 19 |
| Different discretizations of the Euclidean action | p. 19 |
| The path integral as a quantization prescription | p. 20 |
| The relation to statistical mechanics | p. 22 |
| References | p. 23 |
| QCD on the lattice - a first look | p. 25 |
| The QCD action in the continuum | p. 25 |
| Quark and gluon fields | p. 26 |
| The fermionic part of the QCD action | p. 26 |
| Gauge invariance of the fermion action | p. 28 |
| The gluon action | p. 29 |
| Color components of the gauge field | p. 30 |
| Naive discretization of fermions | p. 32 |
| Discretization of free fermions | p. 32 |
| Introduction of the gauge fields as link variables | p. 33 |
| Relating the link variables to the continuum gauge fields | p. 34 |
| The Wilson gauge action | p. 36 |
| Gauge-invariant objects built with link variables | p. 36 |
| The gauge action | p. 37 |
| Formal expression for the QCD lattice path integral | p. 39 |
| The QCD lattice path integral | p. 39 |
| References | p. 41 |
| Pure gauge theory on the lattice | p. 43 |
| Haar measure | p. 44 |
| Gauge field measure and gauge invariance | p. 44 |
| Group integration measure | p. 45 |
| A few integrals for SU(3) | p. 46 |
| Gauge invariance and gauge fixing | p. 49 |
| Maximal trees | p. 49 |
| Other gauges | p. 51 |
| Gauge invariance of observables | p. 53 |
| Wilson and Polyakov loops | p. 54 |
| Definition of the Wilson loop | p. 54 |
| Temporal gauge | p. 55 |
| Physical interpretation of the Wilson loop | p. 55 |
| Wilson line and the quark-antiquark pair | p. 57 |
| Polyakov loop | p. 57 |
| The static quark potential | p. 58 |
| Strong coupling expansion of the Wilson loop | p. 59 |
| The Coulomb part of the static quark potential | p. 62 |
| Physical implications of the static QCD potential | p. 63 |
| Setting the scale with the static potential | p. 63 |
| Discussion of numerical data for the static potential | p. 64 |
| The Sommer parameter and the lattice spacing | p. 65 |
| Renormalization group and the running coupling | p. 67 |
| The true continuum limit | p. 69 |
| Lattice gauge theory with other gauge groups | p. 69 |
| References | p. 70 |
| Numerical simulation of pure gauge theory | p. 73 |
| The Monte Carlo method | p. 74 |
| Simple sampling and importance sampling | p. 74 |
| Markov chains | p. 75 |
| Metropolis algorithm - general idea | p. 78 |
| Metropolis algorithm for Wilson's gauge action | p. 79 |
| Implementation of Monte Carlo algorithms for SU(3) | p. 80 |
| Representation of the link variables | p. 81 |
| Boundary conditions | p. 82 |
| Generating a candidate link for the Metropolis update | p. 83 |
| A few remarks on random numbers | p. 84 |
| More Monte Carlo algorithms | p. 84 |
| The heat bath algorithm | p. 85 |
| Overrelaxation | p. 88 |
| Running the simulation | p. 89 |
| Initialization | p. 91 |
| Equilibration updates | p. 91 |
| Evaluation of the observables | p. 92 |
| Analyzing the data | p. 93 |
| Statistical analysis for uncorrelated data | p. 93 |
| Autocorrelation | p. 94 |
| Techniques for smaller data sets | p. 96 |
| Some numerical exercises | p. 98 |
| References | p. 100 |
| Fermions on the lattice | p. 103 |
| Fermi statistics and Grassmann numbers | p. 103 |
| Some new notation | p. 103 |
| Fermi statistics | p. 104 |
| Grassmann numbers and derivatives | p. 105 |
| Integrals over Grassmann numbers | p. 106 |
| Gaussian integrals with Grassmann numbers | p. 108 |
| Wick's theorem | p. 109 |
| Fermion doubling and Wilson's fermion action | p. 110 |
| The Dirac operator on the lattice | p. 110 |
| The doubling problem | p. 111 |
| Wilson fermions | p. 112 |
| Fermion lines and hopping expansion | p. 114 |
| Hopping expansion of the quark propagator | p. 114 |
| Hopping expansion for the fermion determinant | p. 117 |
| Discrete symmetries of the Wilson action | p. 117 |
| Charge conjugation | p. 117 |
| Parity and Euclidean reflections | p. 119 |
| ¿5-hermiticity | p. 121 |
| References | p. 121 |
| Hadron spectroscopy | p. 123 |
| Hadron interpolators and correlators | p. 123 |
| Meson interpolators | p. 124 |
| Meson correlators | p. 127 |
| Interpolators and correlators for baryons | p. 129 |
| Momentum projection | p. 131 |
| Final formula for hadron correlators | p. 132 |
| The quenched approximation | p. 133 |
| Strategy of the calculation | p. 135 |
| The need for quark sources | p. 135 |
| Point source or extended source? | p. 136 |
| Extended sources | p. 137 |
| Calculation of the quark propagator | p. 138 |
| Exceptional configurations | p. 141 |
| Smoothing of gauge configurations | p. 142 |
| Extracting hadron masses | p. 143 |
| Effective mass curves | p. 144 |
| Fitting the correlators | p. 146 |
| The calculation of excited states | p. 147 |
| Finalizing the results for the hadron masses | p. 150 |
| Discussion of some raw data | p. 150 |
| Setting the scale and the quark mass parameters | p. 151 |
| Various extrapolations | p. 152 |
| Some quenched results | p. 154 |
| References | p. 155 |
| Chiral symmetry on the lattice | p. 157 |
| Chiral symmetry in continuum QCD | p. 157 |
| Chiral symmetry for a single flavor | p. 157 |
| Several flavors | p. 159 |
| Spontaneous breaking of chiral symmetry | p. 160 |
| Chiral symmetry and the lattice | p. 162 |
| Wilson fermions and the Nielsen-Ninomiya theorem | p. 162 |
| The Ginsparg-Wilson equation | p. 163 |
| Chiral symmetry on the lattice | p. 164 |
| Consequences of the Ginsparg-Wilson equation | p. 166 |
| Spectrum of the Dirac operator | p. 166 |
| Index theorem | p. 168 |
| The axial anomaly | p. 170 |
| The chiral condensate | p. 172 |
| The Banks-Casher relation | p. 175 |
| The overlap operator | p. 177 |
| Definition of the overlap operator | p. 177 |
| Locality properties of chiral Dirac operators | p. 178 |
| Numerical evaluation of the overlap operator | p. 179 |
| References | p. 183 |
| Dynamical fermions | p. 185 |
| The many faces of the fermion determinant | p. 185 |
| The fermion determinant as observable | p. 186 |
| The fermion determinant as a weight factor | p. 186 |
| Pseudofermions | p. 187 |
| Effective fermion action | p. 188 |
| First steps toward updating with fermions | p. 189 |
| Hybrid Monte Carlo | p. 190 |
| Molecular dynamics leapfrog evolution | p. 191 |
| Completing with an accept-reject step | p. 194 |
| Implementing HMC for gauge fields and fermions | p. 195 |
| Other algorithmic ideas | p. 199 |
| The R-algorithm | p. 199 |
| Partial updates | p. 200 |
| Polynomial and rational HMC | p. 200 |
| Multi-pseudofermions and UV-filtering | p. 201 |
| Further developments | p. 202 |
| Other techniques using pseudofermions | p. 203 |
| The coupling-mass phase diagram | p. 205 |
| Continuum limit and phase transitions | p. 205 |
| The phase diagram for Wilson fermions | p. 206 |
| Ginsparg-Wilson fermions | p. 208 |
| Full QCD calculations | p. 209 |
| References | p. 210 |
| Symanzik improvement and RG actions | p. 213 |
| The Symanzik improvement program | p. 214 |
| A toy example | p. 214 |
| The framework for improving lattice QCD | p. 215 |
| Improvement of interpolators | p. 218 |
| Determination of improvement coefficients | p. 219 |
| Lattice actions for free fermions from RG transformations | p. 221 |
| Integrating out the fields over hypercubes | p. 222 |
| The blocked lattice Dirac operator | p. 223 |
| Properties of the blocked action | p. 226 |
| Real space renormalization group for QCD | p. 227 |
| Blocking full QCD | p. 228 |
| The RG flow of the couplings | p. 231 |
| Saddle point analysis of the RG equation | p. 232 |
| Solving the RG equations | p. 233 |
| Mapping continuum symmetries onto the lattice | p. 236 |
| The generating functional and its symmetries | p. 236 |
| Identification of the corresponding lattice symmetries | p. 238 |
| References | p. 241 |
| More about lattice fermions | p. 243 |
| Staggered fermions | p. 243 |
| The staggered transformation | p. 243 |
| Tastes of staggered fermions | p. 245 |
| Developments and open questions | p. 248 |
| Domain wall fermions | p. 249 |
| Formulation of lattice QCD with domain wall fermions | p. 250 |
| The 5D theory and its equivalence to 4D chiral fermions | p. 252 |
| Twisted mass fermions | p. 253 |
| The basic formulation of twisted mass QCD | p. 254 |
| The relation between twisted and conventional QCD | p. 256 |
| O(a) improvement at maximal twist | p. 258 |
| Effective theories for heavy quarks | p. 260 |
| The need for an effective theory | p. 260 |
| Lattice action for heavy quarks | p. 261 |
| General framework and expansion coefficients | p. 263 |
| References | p. 264 |
| Hadron structure | p. 267 |
| Low-energy parameters | p. 267 |
| Operator definitions | p. 268 |
| Ward identities | p. 270 |
| Naive currents and conserved currents on the lattice | p. 274 |
| Low-energy parameters from correlation functions | p. 278 |
| Renormalization | p. 279 |
| Why do we need renormalization? | p. 279 |
| Renormalization with the Rome-Southampton method | p. 281 |
| Hadronic decays and scattering | p. 284 |
| Threshold region | p. 284 |
| Beyond the threshold region | p. 287 |
| Matrix elements | p. 289 |
| Pion form factor | p. 290 |
| Weak matrix elements | p. 294 |
| OPE expansion and effective weak Hamiltonian | p. 295 |
| References | p. 297 |
| Temperature and chemical potential | p. 301 |
| Introduction of temperature | p. 301 |
| Analysis of pure gauge theory | p. 303 |
| Switching on dynamical fermions | p. 307 |
| Properties of QCD in the deconfinement phase | p. 310 |
| Introduction of the chemical potential | p. 312 |
| The chemical potential on the lattice | p. 312 |
| The QCD phase diagram in the (T, ¿) space | p. 317 |
| Chemical potential: Monte Carlo techniques | p. 318 |
| Reweighting | p. 319 |
| Series expansion | p. 321 |
| Imaginary ¿ | p. 321 |
| Canonical partition functions | p. 322 |
| References | p. 323 |
| Appendix | p. 327 |
| The Lie groups SU(N) | p. 327 |
| Basic properties | p. 327 |
| Lie algebra | p. 327 |
| Generators for SU(2) and SU(3) | p. 329 |
| Derivatives of group elements | p. 329 |
| Gamma matrices | p. 330 |
| Fourier transformation on the lattice | p. 332 |
| Wilson's formulation of lattice QCD | p. 333 |
| A few formulas for matrix algebra | p. 334 |
| References | p. 336 |
| Index | p. 337 |
| Table of Contents provided by Ingram. All Rights Reserved. |
