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Efros A.L. (ed.), Pollak M. (ed.) — Electron-electron interactions in disordered systems
Efros A.L. (ed.), Pollak M. (ed.) — Electron-electron interactions in disordered systems



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Íàçâàíèå: Electron-electron interactions in disordered systems

Àâòîðû: Efros A.L. (ed.), Pollak M. (ed.)

Àííîòàöèÿ:

Hardbound. ``Electron-Electron Interactions in Disordered Systems'' deals with the interplay of disorder and the Coulomb interaction. Prominent experts give state-of-the-art reviews of the theoretical and experimental work in this field and make it clear that the interplay of the two effects is essential, especially in low-dimensional systems.


ßçûê: en

Ðóáðèêà: Ôèçèêà/Ôèçèêà òâ¸ðäîãî òåëà/Ïðèëîæåíèÿ/

Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö

ed2k: ed2k stats

Ãîä èçäàíèÿ: 1985

Êîëè÷åñòâî ñòðàíèö: 690

Äîáàâëåíà â êàòàëîã: 20.08.2005

Îïåðàöèè: Ïîëîæèòü íà ïîëêó | Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
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Ïðåäìåòíûé óêàçàòåëü
Eliashberg, G.M.      476 478; L.P.”
Elliot, J.      450
Elliott, S.R.      445 457
Emelyanenko, O.V.      296 394 395 401
Emin, D.      298
energy levels      see also “Density of states”
Energy levels, correlation between levels      645
Energy levels, density of states correlator      643
Energy levels, distribution of      645
Energy, minimization method      334-341
Energy, relaxation time      495
Entin — Wohlman, O.      435
envelope function      562 607
Envelope function, dependence on state energy      607
Epstein, A.J.      634
Erdos, P.      624
Ergodic hypothesis      390 (see also “Non-ergodic behavior”)
Exact wave functions      642-643
Exact wave functions, double well      638-646
Exact wave functions, resonant pairs      644
Excess specific heat      581 593-594
Excluded volume      645
Excluded volume, Gaussian fluctuations      646
Excluded volume, Poisson distribution      645
Extended states      see “Delocalized states”
Extrinsic illumination      497
Fabbri, M.      589; see “Kishore R.”
Fan, H.Y.      461; see “Tanaka S.”
Faraday rotation      259-260
Feher, G.      255
Feigel’man, M.V.      636 667
Feigenblatt, R.      243 244 256 259 260 578 see
Fermi level      413
Fermi level in classical impurity band      414
Fermi surface in one dimension      627 630
Ferreira da Silva, A.      589 559 589; K.A.” “Kishore R.”
Ferrel, R.A.      625
Ferrill, R.A.      250; see “Quinn J.
Feynman, R.P.      65
Finkelshtein, A.M.      7 40 41 55 81 133
Fisch, R.      436 441
Fisher, D.S.      117 161; P.W.” “Lee P.A.”
Fisher, P.      239
Flanders, D.C.      117 119 120; A.E.”
Fleishman, L.      296 385
Fletcher, R.C.      255; see “Feher G.”
Flood, W.F.      488; see “Dean R.I.”
Fluctuation of order parameters      631 633
Fluctuation, superconductivity      80
Forgacs, G.      7 55 133 161 206; C.”
Fowler, A.B.      405 435 217; T.” “Hartstein A.”
Fr$\ddot{o}$hlich mode      626 636
Fr$\ddot{o}$hlich mode pinning      636 667
Fr$\ddot{o}$hlich state      636
Fr$\ddot{o}$hlich, H.      636
Franzen, N. — I.      595
Frequency dependence of conductivity      see “Conductivity ac”
Friedman, L.R.      238 383
Fritzsche, H.      239 245 246 247 248 266 269 274 292 296 307 356 394 395 401 404 456 488 490 557 559 577 295 296 401 402; J.A.” “Cohen M.H.” “Cuevas M.” “Kastner M.”
Fujimori, Y.      217 222; T.”
Fukagawa, Y.      570 574; S.”
Fukase, T.      128 130 224 225 248 250 251 253; S.”
Fukuyama, H.      4 51 79 105 166 172 177 180 181 183 187 196 197 200 203 206 212 214 217 292 395 560 607 636 202 222 187 192 193 194 195 206 225 175 177 211 212 222; “Ebisawa H.” “Isawa Y.” “Maekawa S.” “Nagaoka Y.” “Ohkawa F.J.” “Yoshioka D.”
Furstenberg, H.      647
Furubayashi, T.      284; see “Nishida N.”
Gadzhiev, A.R.      401 421; L.”
Gamo, J.P.      47 48 185 278 398; R.C.”
Gaussian-type wave function      597
Geballe, T.H.      347 348 349 358 394 398 445 446 457 460 638 650; M.”
Gefen, Y.      161 295 350 435; “Imry Y.”
Gel’mont, B.L.      421 426 344 345 346 426 427 428 436 479; S.D.”
Gemma, N.      488 530 547 561
Gere, E.A.      255; see “Feher G.”
Germanium      171 224
Gershenzon, E.M.      488 489 494 495 496 501 503 504 505 506 507 510 511 513 522 523 528 529 530 531 532 536 538 542 543 547 488 489 490 496 500 501 502 508 509 510 511 528; V.N.” “Arendarchuk V.V.” “Blagosklonskaya L.E.”
Gershenzon, M.E.      5 14 76 77 110 124 125 131 132 221
Geschwind, S.      243 244 256 578 256 257 260 595; “Romestain “Walstedt
Gijs, M.      213; see “Bruynseraede Y.”
Gilson, W.      117 118; N.”
Ginzburg, L.P.      529
Giordano, N.      117 118 119 120 222 26; J.T.”
Girvin, S.M.      94
Glew, R.W.      76 119 122; D.A.”
Goalwin, P.      256 257 258 276 582 584 587 595; K.”
Godik, E.E.      488 496
Gogolin, A.A.      624 640 641 642 647 648 649
Gogolin, A.L.      474
Goldgur, E.B.      494 495
Golin, S.      324 359 398 457 460
Gol’tsman, G.N.      488 496 532 547; E.M.”
Gonda, S.      128
Gordy, L.      296 395 401
Gor’kov theory      209
Gor’kov, L.P.      4 9 23 84 15 16 32 43 59 182 162 250 476 478 624 630 631 633 636 643 644 645 661 664 635 642 643 653 654 659 660 661 625 629 630 633; E.” “Abrikosov A.A.” “Berezinskii V.L.” “Bychkov Yu.A.”
Gosar, P.      294 360 370
Gotze, W.      136
Graebner, J.E.      608; see “DiSalvo F.J.”
Grand partition function      575
Granular metals      296 398-399
Gredeskul, S.A.      475 624 647; E.M.”
Grest, G.S.      197 206 282
Griinewald, M.      294 296 318 344 346 390 393 397 427 428 429 442
Ground state properties      321-322 343-346 352
Gubankov, V.N.      5 14 76 77 110 124 125 131 132 221; M.E.”
Gutfreund, H.      630 649; M.”
Gyorffy, B.L.      117 118; J.L.”
Habermeier, H.      117 118 120; P.”
Hall coefficient      172 196
Hall conductivity      171
Hall effect      6 89-94 117 120-122 137 247 248
Halperin, B.I.      441 469 470 624 643 299; V.” “Anderson P.W.”
Handler, P.      126; see “Landwehr G.”
Harris, L.A.      221 222;
Harris, R.      131; see “Cochrane R.W.”
Harrison, J.P.      580 581; J.R.”
Harrison, W.A.      37
Hartmann, W.M.      571 573; T.A.”
Hartstein, A.      405 435; A.B.”
Hasegawa, N.      503 504 506 507 510 523 526 527 530 536; M.”
Hauser, J. J.      445 446 453 455
Hayden, J.K.      404; see “Butcher P.N.”
Hayden, K.J.      405
Haydock, R.V.      161
Haynes, I.R.      488; see “Dean R.I.”
Hearn, C.J.      427
heat capacity      51 55 56 106-108 119
Hebard, A.F.      213
Heeger, A.J.      635 636 667; W.P.”
Herndon, R.C.      624; see “Erdos P.”
Hertel, G.      283 398
Hess, H.      111 126 224 249 251 252 253; T.F.”
Hess, H.F.      254 267 435
Hibbs, A.R.      65; see “Feynman R.P.”
Hikami, S.      14 168 173
Hill, R.M.      254 349; L.A.”
Hirano, M.      488 489 496 507 510; M.”
Hoffmann, H.      173 222
Hofmann, F.      173 222; H.”
Hohenberg, P.C.      633
Holcomb, D.F.      134 255 256 262 578 584 251 255; M.H.” “Alexander M.N.”
Holstein,T.D.      295 316
Homeopolar levels      508
Honig, A.      488 527 543; D.”
Honreich, R.M.      393; see “Morgenstem I.”
Hopping -induced lowering      524
Hopping conduction      297-302 347-349 353-359 371-384 395-405 432-435 438-440 444-479 515 603-611
Hopping energy      292 338
Hopping over neutral centers      511
Hopping process      604 647 649
Hopping process, phonon activated      647 657
Horii, K.      546 547 549; Y.”
Hoshino, K.      187 193 194 225 177; H.” “Isawa Y.”
Houghton, A.      94 161 196 223; C.S.”
Hoult, R.A.      490; see “Bajaj K.K.”
Howard, I. A.      634; see “Epstein A.J.”
Hubbard bands      236 239 241 277
Hubbard energy      292 338
Hubbard gap      491
Hubbard, Hamiltonian      566
Hubbard, J.      235 239
Hughes, A.      77 221; D.A.”
Hughes, H.P.      299; see “Apsley N.”
Hunt, A.G.      335 339 341 359
Hyperfine interaction      see “Interaction hyperfine”
Igumenov, V.T.      76 119 121;
Ikebe, M.      211
Ikehata, S.      224 248 261 262 584 585 584 580 581 582 594 595 603 559 570 574; N.” “Kobayashi S.” “Ootuka Y.” “Sasaki W.”
Impact processes      498
Impurity conduction      295-296 305-307 319-321 349 359-361 494-404 578
Impurity scattering      634
Impurity scattering, backward      634 635 640
Imry, Y.      48 50 135 136 161 268 295 350 166 222; Y.” “Ovadyahu Z.”
Inada, R.      607; see “Onuki Y.”
incommensurability      628 636 667
Indium antimonide      224
Induced charge      324 329
Inelastic scattering time      5 25 59 60 165 202
Inelastic scattering time, phase relaxation      5 10 44 59-65 70-74 82 138
Infrared absorption      232-242 266 267 546
Instabilities in one-dimensional metals      631 633 635
Instabilities in one-dimensional metals, Peierls      631 635
Instabilities in one-dimensional metals, structural      631
Instabilities in one-dimensional metals, superconducting      631
Interaction      181 206
Interaction, BCS      209 210
Interaction, constants      629
Interaction, constants, scattering amplitudes      629
Interaction, constants, Umklapp processes      629
Interaction, constants, virtual phonon exchange      629
Interaction, coulomb      27 36-38 40-44 52 53 79 87 114 235 237 278 282-284 656 665
Interaction, Coulomb effects on conductivity      249 250
Interaction, Coulomb effects on magnetoconductivity      251-253
Interaction, Coulomb energy      305 322-323 334-340 368 386 656 665
Interaction, Coulomb long-range      319 323 345
Interaction, Coulomb screened      158 186
Interaction, hyperfine      242 256
Interaction, interstate      562 588-589 604 609 611
Interaction, interstate spin dependent      589 609-610
Interaction, intrastate      564-565 568 571 574 577 588 604-605
Interaction, intrastate average energy      571 573 586 588
Interaction, intrastate enhancement effect      577
Interaction, intrastate interplay with disorder      577
Interaction, intrastate state dependent      572 577
Interaction, intrastate theory      567-577
Interaction, long, range      see “Interaction Coulomb long
Interference      8 11 12 13 15 21 22 52 73 74 95 104 161 163
Intermediate concentration regime      see “Concentration intermediate
Interplay of disorder and interaction      see “Interaction intrastate”
Interstate interaction      see “Interaction interstate”
Intervalley scattering      178 197 219
Intrastate interaction      see “Interaction intrastate”
Intrinsic disorder      634
Inversion layer      217
Ioffe — Regel criterion      269 278
Ioffe, A.F.      4 269
Ionic term      516
Ionov, A.N.      115 116 128 129 400 434;
Isawa, Y.      128 130 224 225 248 250 251 253 187 192 193 194 195 206 224 225 206; H.” “Morita S.”
Ishida, S.      281 282 128 130 224 225 248 250 251 253; S.”
Ishii, K.      624
Ishimoto, H.      284; see “Nishida N.”
Ivkin, E.B.      445
J$\ddot{a}$ckie, J.      469 117 118; J.L.”
Jain, K.      242
Jericki, A.      161; see “Houghton A.”
Jerome, D.      256 625 628 633
Jiang, C.L.      295 296 401 402;
Johannesson, Ch.      131; see “Rapp
Johnson, M.      94; see “Girvin S.M.”
Jones, H.      VII
Jortner, J.      269; see “Webman I.”
Josephson effect      57 59
Kaike, Y.      128 130; S.”
Kajimura, K.      213
Kamimura, H.      292 307 395 559 569 570 571 572 574 575 576 577 585 586 559 565 593 595 596 603 566 589 488 492 497 529 559 588 589 602 530 547 561 560 604 605 606 610 611 560 567 569 571 572 574 576 586 587; H.” “Gemma N.” “Kanehisa M.A.” “Kurobe A.” “Natori A.” “Takemori T.” “Yamaguchi E.”
Kammerer, O.F.      211; see “Strongin M.”
Kanehisa, M.A.      571; see “Kamimura
Kaplan, T.A.      571 573
Karimov, Yu.S.      634 635 662 667;
Kastner, M.      456
Kasuya, T.      297 557
Katagiri, X.      211; see “Ikebe M.”
Katsumoto, S.      126 127 128 224 249 530;
Kaufer, J.W.      634; see “Epstein A.J.”
Kaveh, M.      75 172 559; N.F.” “Uren M.J.”
Kawabata, A.      11 63 109 111 122 166 168 170 171 195 224 251 126 127 128 224 249;
Kawaguchi, T.      217 222
Kawaguchi, Y.      122 169 170 218; S.”
Kawaji, S.      170 218 171 173 218 219; Y.”
Kazanskii, A.G.      461 474;
Keck, B.      211
Keldysh, L.V.      141
Keller, J.      211
Kenway, R.D.      161; see “Houghton
Kereselidze, T.M.      515 516 518
Ketchen, M.B.      77 78 117 119; R.
Kharadze, G.A.      635; see “Abrahams E.”
Khmel’nitskii, D.E.      4 9 13 57 58 23 84 162 250 6 14 133 9 11 15 24 57 58 59 63 64 66 67 70 72 108 110 112 113 173 203 209 251; B.L.” “Efetov K.B.” “Gor’kov L.P.” “Spivak.Z.”
Kichigin, D.A.      76 119 121
Kikuchi, M.      529
Kinetic-type exchange      589-590
Kinoshita, J.      582; see “Sasaki W.”
Kinoshita, N.      242 255 256; S.”
Kirkman, R.F.      490; see “Bajaj K.K.”
Kirkpatrick, S.      297 605 297; V.K.S.”
Kishore, R.      589; see “Ferreira da Silva A.”
Kitahara, H.      170 171; Y.”
Kitahara, V.      122; see “Kawaguchi Y.”
Kittel, C.      272
Kivelson, J.      667
Klein, M.      242; see “Jain K.”
Klein, M.A.      213; see “Crow J.F.”
Klitzing, K.V.      435; see “Ebert G.”
Klyatskina, I.V.      457
Knight shift      261 262 584
Knotek, M.L.      293 295 296 312 352 360 374 384 396 400 401 402 403 404 417 455 558 294 295 296 318 331 334 335 341 356 360 375 396 401 404 439; M.”
Kobayashi, M.      488 489 508 510 530 546 547 549 503 504 506 523 526 527 530 536; S.” “Sugimoto “Taniguchi “Thomas
Kobayashi, N.      263 264 265 580 581 582 586 587 594 595 603 607 608 610; Y.”
Kobayashi, S.      126 127 128 224 249 265 283 122 123 166 213 221 222 224 248 251 265 263 264 265 580 581 582 584 585 586 587 594 595 603 559 570 574 584; S.” “Kobayashi N.” “Komori F.” “Ootuka Y.” “Sasaki W.” “Thomas
Kogan, Sh.M.      416 458
Kohn, W.      272 597
Koide, S.      297 557; T.”
Koike, Y.      225 250 251 253; S.”
Kolia, E.V.      50 51; V.N.”
Kolomiets, B.T.      445; see “Ivkin E.B.”
Kolos, W.      519
Komarov, I.V.      518
Komnik, Yu.F.      75 116 125
Komori, F.      177 221 122 123 265; S.” “Ootuka Y.”
Komori, S.      166 213 221 222; S.”
Kondo effect      213
Kondo, J.      224 248 251; Y.”
Korchazhkina, R.L.      400 434 461 474; A.I.” “Zabrodskii A.G.”
Korenman, V.      211; see “Keller J.”
Korringa relations      262
Koshelev, O.G.      461 474; V.S.”
Kramer, B.      161; see “MacKinnon A.”
Kubo, R.      476
Kummer, R.B.      243 244 256 257 259 260 578 595; S.” “Walstedt R.E.”
Kumserov, Yu.A.      50 51; V.N.”
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