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Book Categories |
1 | Fundamental properties of electrons in solids | 1 |
1.1 | What are heavy electrons? | 1 |
1.2 | Itinerant and localized states | 3 |
1.3 | Fundamentals of spin dynamics | 13 |
1.4 | Nuclear magnetic resonance | 27 |
1.5 | Neutron scattering | 36 |
2 | Crossover from localized moment to local fermi or non-fermi liquid | 42 |
2.1 | Description of singlet formation | 42 |
2.2 | Dynamics of the Kondo impurity | 54 |
2.3 | Deviation from the canonical behaviour | 64 |
2.4 | Experimental signatures of local spin dynamics in f-electron systems | 72 |
3 | Metallic and insulating phases of heavy electrons | 88 |
3.1 | Formation of heavy-electron metals with magnetic correlation | 89 |
3.2 | Semiconducting and semimetallic phases of heavy electrons | 99 |
3.3 | Momentum distribution and the Fermi surface | 102 |
3.4 | Dynamic effective field theory | 107 |
3.5 | Methods for solving the effective impurity model | 116 |
3.6 | Explicit results by dynamic effective field theory | 118 |
4 | Anomalous magnetism | 126 |
4.1 | Characteristics of heavy-electron magnetism | 126 |
4.2 | Weak antiferromagnetism in URu[subscript 2]Si[subscript 2] | 127 |
4.3 | Antiferromagnetism in UPd[subscript 2]Al[subscript 3] And UNi[subscript 2]Al[subscript 3] | 132 |
4.4 | Magnetic correlation in CeCu[subscript 2]Si[subscript 2] | 134 |
4.5 | Non-Fermi-liquid behaviour near the antiferromagnetic phase boundary | 136 |
4.6 | Quadrupolar and magnetic orderings in CeB[subscript 6] | 137 |
4.7 | Systems with low density of carriers | 140 |
4.8 | Quantum phenomenology for the dual character | 142 |
5 | Superconducting states | 156 |
5.1 | Historical overview | 156 |
5.2 | Fundamentals of anisotropic pairing | 157 |
5.3 | NMR as a probe of superconducting states | 166 |
5.4 | Characteristic features of heavy-electron superconductivity | 173 |
5.5 | Toward a microscopic theory | 184 |
6 | Comparison with high-temperature superconductors | 191 |
6.1 | Characteristics of copper oxides | 191 |
6.2 | Spin dynamics probed by NMR | 194 |
6.3 | The p-d hybridization model | 201 |
6.4 | Separation of spin and charge in dynamics | 204 |
6.5 | Epilogue - to be or not to be a Fermi liquid | 207 |
A | Linear response theory | 211 |
B | Spectral representation and fluctuation - dissipation theorem | 213 |
C | Rayleigh - Schrodinger perturbation theory and high-order renormalization | 215 |
D | Spectral shape and relaxation rate | 219 |
E | Green function in the imaginary time | 223 |
F | Path integral representation of the partition function | 225 |
G | Many-Body Perturbation Theory | 228 |
Index | 237 |
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Add Dynamics of Heavy Electrons, Heavy electrons are found among a number of lanthanide and actinide compounds, and are characterized by a large effective mass which becomes comparable to the mass of a muon. Heavy electrons exhibit rich phenomena such as unconventional superconducti, Dynamics of Heavy Electrons to the inventory that you are selling on WonderClubX
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Add Dynamics of Heavy Electrons, Heavy electrons are found among a number of lanthanide and actinide compounds, and are characterized by a large effective mass which becomes comparable to the mass of a muon. Heavy electrons exhibit rich phenomena such as unconventional superconducti, Dynamics of Heavy Electrons to your collection on WonderClub |