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Àâòîðèçàöèÿ |
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Ïîèñê ïî óêàçàòåëÿì |
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Anderson P.W. — The theory of superconductivity in the high-Tc curprates |
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Ïðåäìåòíûé óêàçàòåëü |
"perfect conductivity" = incompressibility 163
"squeezed" Heisenberg model 131 134 136 163
"two-fluid model," 228 229—230 234
"van Hove scenario" 427—431
6 97 206 267
layers 99 188
layers, chains 15 73 56 99
layers, planes 15 33 99
32 266
30 134
2D superconductivity 41—42 see
Abrahams, E. 8 84 158.
Abrikosov, A. A. 170
Aeppli, G. 7 57
Affleck, I. 179 180
Aksay, I. 9
Allan, J. 7 13 18 19 91 226
Ambegaokar, V. 157
Andersen, O. K. 8 15 23 56 238
Anderson model 22 68
Ando, J. 107
Andreev scattering 44 97
Andreev scattering, tunneling 231
Andreev, A. 44 231
Anomalous diagrams 73 171
Anomalous self-energy 209 215ff
Antibound states 38 165
Antiferromagnet 38 97
Antiferromagnet, spiral 428
Antiferromagnetic spin fluctuations 49 99 100 102 425 427 430
Antiferromagnetic spin fluctuations, "A.-like" S.F. 163 187
Antiferromagnetism 46 97 187 see
Anyon 5 32 38—39 175 255 427
Anyon, anyon superconductivity 4 42 427—430
Apical Oxygen 424
Arko, A. 6 7 91 226
Backflow 48 54 72 135 295—306
Baer, Y. 115
Balatsky, A. 52 223
Balin, R. 121
Ballett, D. 13 84
Band splitting (odd-even) 40—41 44 49 72—73 401—410
Barrett, C 156
Baskaran, G. 3 7 131 179 396
Batlogg, B. 7 34 425
BCS mechanism 43 111 116 205 424
BCS mechanism, for superconductivity theory 215f
BCS mechanism, interaction—Eliashberg see “Residual int.”
BCS mechanism, Theory 233 424 425
Bechgaard salts 6 see “Organic
Bednorz, G. 70
Benfatto, G. 164
Berezinskii, V. 215
Bethe ansatz 132—135 141 143 176 183 249—254
Bethe — Salpeter equation 171
Bipolarons 32 116 118 427—430
Birgeneau, R. 7
BIS spectroscopy 18
Bishop, D. 7
Bloom, R 167 175
Blount, E. I. 13 207
Boebinger, G. 107
Bogoliubov transformation 137 142 176 186
Bogoliubov, N.N. 43
Bonding-antibonding splitting 15 20 424
Bontemps, N. 7 83 203
Bose condensation, in bipolaron theory 429
Bose condensation, in gauge theory 431
Bosonization 131 136—137 139—146 127 176 183ff 243—248 295—306
boundary conditions 165 166 170—172
Bourbonnais, C 131
Bozovic, I. 7 81 82
Brazovsky, S. 162 190
Brueckner, K. 20
Campuzano, J.-C 7 53 123
Chaikin, P. 7
Chakravarty, S. 4 7 49 56 111 119 123 238 434
Charge-spin separation 40ff 72 131—151 155 157 161 176 189ff 265—278 295—306 427
Chaudhuri, P. 7
Chemical (ultralocalized) pseudopotentials 24—25
Chester, G. V. 226
Chevrel superconductors 6 266
Chirality 179 181—183
Chirality, chiral RVB 428
Chirality, chiral symmetry-breaking 180
Cieplak, M 7 67
Clarke, D. G. 7 49 50 56 72 85 107 203 433
Clayhold, J. 76
Cohen, M. L. 205
Coherence 36 41
Coherence length 223
Coherence length, along c 127 128
Coherence, loss of 195 335 352 365—374
Coleman, P. 49 204
Coll, C 137
Collins, R. 7 53 81
Commensurability gap 19
Compressibility 39
Compressibility, (inc.) of Luttinger liquids 47
Compressibility, of Fermi liquid 28
Conductivity see “Resistivity”
confinement 5 6 40ff 71—74 151 163 205—208 327—352 365—374 see
contacts 44
Cooper pairs C.P. problem 164
Cooper, L. 7 84
Correlation functions 132 136 146—147
Correlation functions, charge-charge 138
Correlation functions, current-current (conductivity) 190
Correlation functions, spin-spin (susceptibility) 132 137ff 156—157
Crabtree, G. 7
Crick, E C 31
Crystal field splitting 20
d-ligand hybridization 18
D-wave 429—430 434 see
D-wave, symmetry gap 52 121—123 424
De Boer, J. 18
de Dominicis, C 73
Density waves 40 43
Density waves, charge (SDW) 82 111
Dessau, D. 93 94
di Castro, C 177
dielectric constant 124—125
Dimensional reduction 5 6 see
Doping see “Generalized phase diagram”
Doping, optical 98
Doping, optimal 58 98 430 431
Doping, overdoping (and 3 dimensionality) 58 424
Doping, self-doping 427—430 431
Doping, underdoping 59 82—83 98—99
Doucot, B. 3 7
Drag effects 189 192 see “Spinon “Phonondrag”
Drude intensity 83
Dynamic screening 52 123 205 see
Dynes, R. 7
Dyson, F J. 166
Dzialoshinsky, I. 131 147 170
Effective Hamiltonian 21 33 317—326
Effective mass m* 28 428
Electron decay (in L.L.) 151 190ff
Electron-phonon interaction 22 36 46 206
Electronic mechanism for superconductivity (proof of) 116
Eliashberg, G. H. 205 219
Emery, V. J. 141 431
Energy gap (superconducting) see “Gap”
Energy scales 41 46—47
Energy shell (for scattering theory) 171
Enhancement of by interlayer t 219ff
Enhancement of by interlayer t, of ILT by phonons 222 228
Exchange (parameter, integral) 5 36 46 84
Extended Hubbard model 20 35 423 see
| Fano resonance in Raman effect 36
Fermi liquid (Landau) coefficients 28 164
Fermi liquid (Landau) coefficients, 28
Fermi liquid (Landau) coefficients, (= parameters) 209
Fermi liquid (Landau) coefficients, singular L parameters 183
Fermi liquid theory 26—29 36ff 132 163—164 183 see
Fermi surface 4 5 39 36 57 90 95 98 157 265—278 428 430
Fermi surface pockets 238
Fermi surface, dynamics 185ff
Fermi surface, Fermi surface smearing 189 see
Fermi surface, FS. nesting 102 266 427
Fermi surface, ghost Fermi surface 6 9 94 188 203
Fermi surface, holon F.S. 135 157
Fermi surface, shape 47 204
Fermi surface, spinon F.S. 135 157 180
Fermi velocity 195 429
Finkelstein, A. M. 67
Fisher, D. 237
Fisher, M.P.A. 8 158 159 202
Fisher, O. 107 239
Fisk, Z. 7
Fleury, P. A. 7 20 84
Fluctuation conductivity 65
Flux phase 180
Forward-scattering P.S. 48
Fractional exclusion principle 172ff
Fractional statistics see “Anyon”
Fradkin, E. 8
Franck — Condon effect 428
Freeman, A. J. 34
Friedel's theorem 122 165ff
Friedel.J. 165
Fukuyama, H. 202
Fullerides 6
g-ology 131
Galitskii, V. M. 167 175
Gallivotti, G. 164
Gap anisotropy 5 47 53 121—123 206. 228 230 238 307—316 411—420
Gap anisotropy, magnitude 88
Gap anisotropy, sign change 121—123 238
gap equation 5 52—53 215—223 307—316 434
Gap equation, BCS Gap equation 215ff
Gauge theories 5 39 177—181 182 203 428 341
Geballe, T. H. 7
Generalized phase diagram 34 98 424
Georges, A. 7
Giaevar conductivity, = tunneling conductivity 196
Giaevar conductivity, Kumar theory of 1/T 69 194—195
Giaevar, T. 69 194
Giamarchi, T. 158
Ginsberg, D. 7 58 63 67
Ginsburg — Landau theory 223
Girvin, S. 8
Goddard, W. S., Jr. 423
Grain-boundary Josephson junctions 234 236
Green's function (one-particle) of F.L. 26—29
Green's function (one-particle) of F.L., 2-particle 190
Green's function (one-particle) of F.L., of 1D Hubbard model 131 147—151 158 160—161 163
Green's function (one-particle) of F.L., of 2D H.M. 16 187ff
Green's function (one-particle) of F.L., of 2D interacting 208ff
Greene, L. 7 58
Gros, C 18
Gutzwiller projection 4 131 181 428
Gutzwiller, M. 4
Haldane — Shastry model 131
Haldane, F.D.M. 3 7 18 48 131 136 139 141 143 163 176 177 202
Hall effect 5 433
Hall effect, A.C.H.E. 49
Hall effect, angle 48 75—6 425 430
Hall effect, anomalous H.E. 48—49 74—76 197—200 204 425 430
Hall effect, out of plane 197
Hall effect, sign of 433
Hardy, W. 7
Hartree diagrams 165ff
Heavy-electron superconductors 6 121 206 267
Heavy-electron superconductors, H-E materials, anomalies in 189 267
Hebel, L. C 119
Heeger, A. 7
Heine, V 13
Heuristics of 226—228 424—425 429—430 431 see
Hilbert space incompressibility (Luttinger Theory) 184
Holon 4 5 39 50 137 179—180 431
Holon drag 95 161 162 188—184
Holon drag, = "pinning" 188 200 201
Holon drag, non-drag 48 107 159
Holon, h. "pinning" 188
Holon, h. scattering 151—152 190
Holon, h.-spinon scattering 193
Holon, the "holon problem" 431
Hristopolos, D. 7
Hsu, T. 3 7 205 227
Hubbard gap (Mott — Hubbard g.) 19 21 36 81
Hubbard gap (Mott — Hubbard g.) ,charge-transfer g. 178
Hubbard model 4 5 40 46—47 428 see lower
Hubbard model, 1D H.M. 38 81 100 131—162
Hubbard model, 2D H.M. 163—202 243—306
Hubbard model, correlation functions 103
Hubbard model, H. Hamiltonian 20 21 23 178
Hubbard model, one-band H. model 22 38
Hubbard, J. 20 21 22 23 28 173
Hume — Rothery, W. 427
Hybertsen, M. S. 13 23 63
Impurity scattering, effective 223 234—235
Impurity scattering, elastic 65 234
Impurity scattering, spin (T noninvariant) 74—76 66—68 122
Incompressible Quantum Fluid (Luttinger liquid as) 131 151—153 205 429
Inelastic scattering rate 38 64
Inelastic scattering rate, of spinons 75 151
Infrared catastrophe see “Orthogonality c”
Infrared spectroscopy 7 33 36 38 45 57 228—229
Infrared spectroscopy, c-axis 40fff 85—87 124—28 213 229 359—364 425
Infrared spectroscopy, I. conductivity 189f 203
Infrared spectroscopy, in-plane 81—83 353—358 425
Infrared spectroscopy, reflectivity 81 85 124—128 425
Interchain hopping 41 56 71—74 151 327—352 see
Interlayer tunneling 42 205 215—223 see
Interlayer tunneling, I. pairing interaction 126 238 317—326
Interlayer tunneling, I. tunneling mechanism for superconductivity 5 42—45 49—51 113 124—128 162 208 238 307—326 353—364 393—421 431
Interlayer tunneling, incoherent IH 49 50
Interlayer tunneling, incoherent IH conductivity 194ff 203
Interplane and interlayer hopping integral, 46—47 40 42—45 208 227 see
Interplane and interlayer hopping integral, anisotropy of 47 56 238
Isotope effect 5 122 222—223 236 237 239 434
Jahn — Teller distortion (Jahn — Teller effect) 18 16 20 34
Jastrow, R. 174
Jastrowhole 174f
John, S. 3 7
Jordan — Wigner transform 141
Josephson effect 50—51 74 205 see
Josephson effect, interference in 121
Josephson effect, Josephson critical current 125
Josephson effect, Josephson energy 124—125
Josephson effect, Josephson plasma frequency 124—128
Josephson, B. D. 50
Junod, R 7
Kanamori, J. 20
Kane, C 158 159 202
Kapitulnik, A. 7 232
Kawai, T. 7
Keimer, B. 7 9 55 107 123 418
Khveshchenko, D. 7 9 48 56 203
Kinetic energy (disfavored by chirality) 182—83
Kinetic energy (disfavored by chirality), transverse 186
Kirtley, J. 96
Kivelson, S. 4 8 40 180
Klein, M. V. 7 81 84 85
Kohn, W. 13 26 28 38 73 171 205
Kondo problem 132
Korringa relaxation 99 180 424
Korringa relaxation, non-Korringa 99ff 156—157
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