| Introduction / 1: |
| Independent Electrons / 2: |
| Many-Electron Hamiltonian / 2.1: |
| Basis Sets / 2.2: |
| Self-consistent Field Equations / 2.3: |
| Unrestricted SCF Approximation / 2.4: |
| Missing Features of the Independent-Electron Approximation / 2.5: |
| Homogeneous Electron Gas / 3: |
| Uncorrelated Electrons / 3.1: |
| Random-Phase Approximation / 3.2: |
| Wigner Crystal / 3.3: |
| Density Functional Theory / 4: |
| Theory of Hohenberg, Kohn and Sham / 4.1: |
| Local-Density Approximation and Extensions / 4.2: |
| Strong Electron Correlations: LDA+U / 4.3: |
| The Energy Gap Problem / 4.4: |
| Time-Dependent DFT / 4.5: |
| Wavefunction-Based Methods / 5: |
| Method of Configuration Interactions / 5.1: |
| Cumulants and their Properties / 5.2: |
| Ground-State Wavefunction and Energy / 5.3: |
| Method of Increments / 5.3.1: |
| Different Approximation Schemes / 5.4: |
| Partitioning and Projection Methods / 5.4.1: |
| Coupled Cluster Method / 5.4.2: |
| Selection of Excitation Operators / 5.4.3: |
| Trial Wavefunctions / 5.4.4: |
| Correlated Ground-State Wavefunctions / 6: |
| Semiconductors / 6.1: |
| Model for Interatomic Correlations / 6.1.1: |
| Estimates of Intra-Atomic Correlations / 6.1.2: |
| Ab Initio Results / 6.1.3: |
| Ionic and van der Waals Solids / 6.2: |
| Three Oxides: MgO, CaO and NiO / 6.2.1: |
| Rare-Gas Solids / 6.2.2: |
| Simple Metals / 6.3: |
| Ground States with Strong Correlations: CASSCF / 6.4: |
| Quasiparticle Excitations / 7: |
| Single-particle Green's Function / 7.1: |
| Perturbation Expansions / 7.1.1: |
| Temperature Green's Function / 7.1.2: |
| Quasiparticles in Metals / 7.2: |
| Quasiparticles in Semiconductors and Insulators / 7.3: |
| Quasiparticle Approximation / 7.3.1: |
| A Simple Model: Bond-Orbital Approximation / 7.3.2: |
| Wavefunction-Based Ab Inito Calculations / 7.3.3: |
| Incoherent Excitations / 8: |
| Projection Method / 8.1: |
| An Example: Hubbard Model / 8.2: |
| Coherent-Potential Approximations / 9: |
| Static Disorder / 9.1: |
| Dynamical Disorder: DMFT and Beyond / 9.2: |
| Strongly Correlated Electrons / 10: |
| Measure of Correlation Strengths / 10.1: |
| Indicators of Strong Correlations / 10.2: |
| Low-Energy Scales: a Simple Model / 10.2.1: |
| Effective Hamiltonians / 10.2.2: |
| Kondo Effect / 10.3: |
| The Hubbard Model Revisited / 10.4: |
| Spin-Density Wave Ground State / 10.4.1: |
| Gutzwiller's Ground-State Wavefunction / 10.4.2: |
| Hubbard's Approximations and their Extensions / 10.4.3: |
| Kanamori Limit / 10.4.4: |
| The t-J Model / 10.5: |
| Mean-Field Approximations / 10.6: |
| Test of Different Approximation Schemes / 10.6.1: |
| Metal-Insulator Transitions / 10.7: |
| Numerical Studies / 10.8: |
| Break-down of Fermi Liquid Description / 10.9: |
| Marginal Fermi Liquid Behavior / 10.9.1: |
| Charged and Neutral Quasiparticles / 10.9.2: |
| Hubbard Chains / 10.9.3: |
| Quantum Critical Point / 10.9.4: |
| Transition Metals / 11: |
| Ground-State Wavefunction / 11.1: |
| Satellite Structures / 11.2: |
| Temperature-Dependent Magnetism / 11.3: |
| Local Spin Fluctuations / 11.3.1: |
| Long-Wavelength Spin Fluctuations / 11.3.2: |
| Transition-Metal Oxides / 12: |
| Doped Charge-Transfer Systems: the Cuprates / 12.1: |
| Quasiparticle-like Excitations / 12.1.1: |
| Orbital Ordering / 12.2: |
| Manganites: LaMnO3 and related Compounds / 12.2.1: |
| Vanadates: LaVO3 / 12.2.2: |
| Ladder Systems: αÆ-NaV2O5 / 12.2.3: |
| Other Oxides / 12.2.4: |
| Heavy Quasiparticles / 13: |
| Kondo Lattice Systems / 13.1: |
| Renormalized Band Theory / 13.1.1: |
| Large Versus Small Fermi Surface / 13.1.2: |
| Mean-Field Treatment / 13.1.3: |
| Charge Ordering in Yb4As3: an Instructive Example / 13.2: |
| Partial Localization: Dual Role of 5f Electrons / 13.3: |
| Heavy d Electrons: LiV2O4 / 13.4: |
| Excitations with Fractional Charges / 14: |
| Trans-Polyacetylene / 14.1: |
| Fractional Quantum Hall Effect / 14.2: |
| Correlated Electrons on Frustrated Lattices / 14.3: |
| Loop Models / 14.3.1: |
| Dimer Models / 14.3.2: |
| Mapping to a U(1) Gauge Theory / 14.3.3: |
| Magnetic Monopoles / 14.3.4: |
| Superconductivity / 15: |
| The Superconducting State / 15.1: |
| Pair States / 15.1.1: |
| BCS Ground State / 15.1.2: |
| Cooper Pair Breaking / 15.2: |
| Ergodic vs. Nonergodic Perturbations / 15.2.1: |
| Pairing Electrons with Population Imbalance / 15.2.2: |
| Cooper Pairing without Phonons / 15.3: |
| Filled Skutterudite PrOs4Sb12 / 15.3.1: |
| UPd2Al3: Pairing and Time-Reversal Symmetry Breaking / 15.3.2: |
| Magnetic Resonances / 15.4: |
| High-Tc Superconductors / 15.5: |
| Suppression of Antiferromagnetic Order by Holes / 15.5.1: |
| Pseudogap Regime / 15.5.2: |
| Strange Metal / 15.5.3: |
| Optical Properties: Drude Peak / 15.5.4: |
| Pairing Interactions / 15.5.5: |
| Stripe Formation / 15.5.6: |
| Some Relations for Cumulants / A: |
| Scattering Matrix in Single-Centre and Two-Centre Approximation / B: |
| Intra-atomic Correlations in a C Atom / C: |
| Landau Parameter: Quasiparticle Mass / D: |
| Kondo Lattices: Quasiparticle Interactions / E: |
| Lanczos Method / F: |
| Density Matrix Renormalization Group / G: |
| Monte Carlo Methods / H: |
| Sampling Techniques / H.1: |
| Ground-State Energy / H.2: |
| Computing the Memory Function by Increments / I: |
| Kagome Lattice at 1/3 Filling / J: |
| References |
| Index |
| Ladder Systems: α'-NaV2O5 |
| Charge Ordering in Yb4As3: an Instructive Example |
| Filled Skutterudite PrOs4Sb12 |
| Strange-Metal |
| 1 Sampling Techniques |
| 2 Ground-State Energy |
| Introduction / 1: |
| Independent Electrons / 2: |
| Many-Electron Hamiltonian / 2.1: |
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