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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
Rommelmann, H.      634; see “Epstein J.”
Rosenbaum, R.      166 222;
Rosenbaum, T.F.      40 111 126 131 224 242 249 251 252 265 270 271 278 579 254 292 277 279 278 280 559 579 307 267 435; F.” “Milligan R.F.” “Paalanen M.A.” “Thomas G.A.”
Rosenbluth, A.W.      346; see “Metropolis N.”
Rosenbluth, M.N.      346; see “Metropolis N.”
Rowell, J.M.      46 283 398; G.”
Rukhadze, A.A.      66 see V.P.”
Ryter, C.      256; see “Jerome D.”
Ryzhkin, I.A.      474 624 635 640 648 665; A.”
Sakaida, Y.      488 489 508 510 512 530 546 547 549; M.”
Salinger, G.L.      265 266; T.G.”
Salpeter, E.E.      488 494; H.A.”
Sapzin, V.M.      461 474; V.S.”
Sasaki, W.      170 171 248 251 264 292 400 578 581 582 584 585 580 581 582 587 594 595 603 122 123 166 213 221 222 559 570 574 177 221 224 248 251 265 249 250 251 126 127 128 224 249 250 530 578 587; S.” “Kobayashi N.” “Komori F.” “Kobayashi S.” “Ootuka Y.” “Thomas G.” “Yamanouchi C.”
Savchenko, A.K.      222
Saydashev, I.I.      75 128; T.A.” “Shmartsev Yu.V.”
Scaling      377
Scaling theory      158 161 254 268 270 282 302 559 579
Schegolev, I.F.      654 634 635 662 667; L.N.”
Scher, H.      398 382; R.”
Schmid, A.      61 62 202 211; B.”
Schmidt, H.      643
Schoeppe, W.      173 222; H.”
Schrieffer, J.R.      629 635 636 667; J.” “Su W.P.
Schuberth, E.      435; see “Ebert G.”
Schultz, T.D.      634
Schulz, H.J.      625 628 633; D.”
Schweitzer, L.      294 296 318 344 346 390 393 397 427 428 429 442 610; M.” “Movaghar B.”
Screened Coulomb interaction      see “Interaction screened
Screened Coulomb potential      657 658
Scruby, C.B.      608; see “Williams P.M.”
Seager, C.H.      301 300; G.E.”
Seidel, G.      265; see “Sullivan P.
Self-consistent equation      424 425
Sena, J.R.      196 223; C.S.”
Senna, J.R.      94; see “Houghton A.”
Serebryakova, N.A.      488 489 500 501 502 507 508 509 510 511 528 488 489 505 506 507 510 531 536 538 542 543; V.N.” “Gershenzon E.M.”
Sernelius, B.E.      559; see “Berggren K.
Sham, L.J.      221; see “Bloss W.L.”
Shante, V.K.S.      297 649
Shapira, Y.      435; see “Entin-Wohlman
Shapiro, B.      136 161 172
Sharp, T.E.      512 514 523
Sharvin, D.Yu      12 170
Sharvin, D.Yu.      12 13; L.”
Sharvin, Yu.V.      12 13 126 170; L.” “Bronevoi L.” “Sharvin D.Yu.”
Sheng, P.      435; see “Abeles B.”
Shiff, E.A.      489 508 510 524
Shklovskii, B.I.      295 296 297 299 308 319 321 344 354 402 404 414 427 433 434 462 465 475 476 478 490 521 522 524 530 624 639 649 656 657 344 345 346 424 426 427 428 436 438 441 457 479 27 137 292 293 294 295 302 318 323 341 342 344 345 346 399 414 415 417 418 419 423 427 429 430 431 433 434 435 438 479 558 611 624 55 133 433 416 421 458 295 296 300 383 312 353 354 355 356 359 394 396 397 398 399 434; S.D.” “Bello M.F.” “Efros A.L.” “Kogan Sh.M.” “Nguyen V.L.” “Skal A.S.” “Gel’mont L.”
Shlimak, I.S.      115 116 128 129 296 395 401 400 434 404 421 434 457; R.” “Gel’mont B.L.” “Ionov A.N.” “Klyatskina V.” “Shklovskii I.” “Zabrodskii G.”
Shmartsev, Yu.V.      128
Short-range potential      492
Sidorov, V.L.      532 547; E.M.”
Sienko, M.J.      236 237; P.P.”
Silicon, phosphorus doped      224 561 577-589 611
Silin.V.P.      66
Simanek, E.      399
Simmonds, P.E.      490; see “Bajaj K.K.”
Simon, R.W.      221 222 223; M.J.” “McGinnis W.C.”
Simonov, A.J.      476 477 478; V.V.”
Sin, U.K.      225; see “Bandyopadhyay B.”
Sinis, Y.P.      488 496; E.E.”
Skal, A.S.      300 383
Skinner, H.W.B.      vii; see “Jones H.”
Skocpol, W.J.      82 86 117 119 120; A.E.”
Smirnov, B.M.      491 492 493 496 515 518; E.E.”
Smirnova, V.B.      494; see “Gershenzon M.”
So, S.K.      47; see “Bermon S.”
Solin, S.A.      242; see “Doehler J.”
Soliton      636 667
Somoans, R.B.      211; see “Woollam J.A.”
Sonder, E.      256
Sood.B.R.      99
Spear, W.E.      455; see “Abkowitz M.”
Specific heat      262-265 441
Specific heat anomaly      592-595 610
Specific heat anomaly, magnetic field dependence      592-595
Specific heat, hump      602
Specific heat, linear in temperature      602
Specific heat, Schottky-type      577 593 600
Spectral response      489
Spencer, E.G.      283 398; G.”
Spiller, E.      117; see “Chaudhari P.”
Spin glass      292-293 346 393-394 591 664
Spin pair model      588 591-597
Spin susceptibility      196 256-262 571-574 582 586 592-593 599
Spin, Hamiltonian      590
Spin-flip Raman scattering      242 244
Spin-lattice relaxation time      261
Spin-orbit scattering      5 6 20 24 95 99 107 110 136 138
Spin-spin scattering      5 6 20 24 27 95 119 125 134 138
Spivak, B.Z.      13 57 58 12 13 57 58 59 170; B.L.”
Srinivasan, G.      293 327 328 331 417 558 657
Staudinger, A.      445 446 453 455; J.J.”
Staunton, H.F.      401 295 296 401; J.A.”
Stegun, I.A.      387; see “Abramowitz A.”
Stem, F.      217 405; T.”
Stephan, X.      192; see “Abrahams E.”
Stevens, D.K.      256; see “Sonder E.”
Stone, M.      161; see “McKane A.J.”
Str$\ddot{o}$m — Olsen, J.O.      131; see “Cochrane R.W.”
Stradling, R.A.      490; see “Bajaj K.K.”
Street, R.A.      456 457 456; N.F.”
Stress effect and tuning      271-281
Strongin, M.      211
Sturge, M.D.      501; see “Norton P.”
Su, W.P.      635 636 667
Successive correlations      312-314 353-359 396-399
Sugimoto, H.      417; see “Kurosawa T.”
Sugimoto, N.      510
Sugiyama, K.      15
Suhl, H.      213
Sullivan, P.F.      265
Suppression of hopping process      606 610
Swierkovski, L.      296 398 405 see T.”
Symko, O.      265; see “Castner T.G.”
Tabet, E.      7 55 133 161 206; C.”
Tada, Y.      213 221 222; S.”
Takagi, H.      211
Takemori, T.      224 560 565 593 595 596 603 292 560 605 606 610 611; H.” “Kurobe A.” “Isawa Y.”
Takeuchi, Y.      128 130 224 225 248 250 251 253; S.”
Tan, H.S.      265; see “Castner T.G.”
Tanaka, S.      461
Taniguchi, M.      488 489 496 504 505 506 507 510 526 527 530 536 488 489 510 530; M.” “Narita S.” “Sugimoto N.”
Tanuma, S.      609 607; Y.”
Teitler, S.      349; see “Rajagopal A.K.”
Teller, A.H.      346; see “Metropolis N.”
Teller, E.      346; see “Metropolis N.”
Temperature-dependent conductivity      see “Conductivity temperature
Theodorou, G.      664
Theriault, J.P.      461 474; J.”
Thermoelectric power      195 196 223
Thomas, G.A.      x 127 128 224 238 239 240 241 249 250 251 264 265 279 283 561 578 579 40 111 126 131 224 242 249 251 252 253 254 265 270 271 278 400 579 508 512 530 546 547 549 254 267 435 292 307 277 278 280 559 579; M.” “Hess H.F.” “Milligan R.F.” “Paalanen M.A.” “Rosenbaum T.F.”
Thomas, P.      300 350; U.” “Maschke K.”
Thomas- Fermi approach      329-334
Thomas- Fermi screening      187
Thompson, R.      84
Thompson, R.S.      211 213; J.F.” “Strongin M.”
Thornton, D.      488 527 543
Thouless length      166
Thouless, D.J.      32 117 158 161 558 623 624 646 662 117; P.W.” “Licciardello C.
Three-dimensional effects      633
Three-dimensional effects, phonon dispersion      633
Three-dimensional effects, transverse tunneling      633 666
Timchenko, I.N.      296 394 395 401; O.V.”
Time inversion operator      21 22 24 57 95
Time of inelastic collision      see “Inelastic scattering time”
Ting, C.S.      196 223
Tinkham, M.      82 86 117 119 120; W. “White A.E.”
Tippie, L.C.      664 666
Tkatch, Yu.Ya.      443; see “Chenskii V.”
Tokumoto, H.      401 435
Tovmach, Y.V.      489 496 506 507 508 510 530 536 538; V.N.” “Gershenzon M.”
Townsend, P.      266
Toyozawa, Y.      134 559; T.”
Transfer integral      561
Transfer-diagonal formulation      596
Transfer-diagonal representation      561-562 591 597
Transition rates      297-299 347 356-358 360-372 391
Trofimov, I.E.      539
Tsikunov, A.B.      461 474; V.S.”
Tsue, D.S.      119 122; D.J.”
Tsui, D.C.      166; see “Bishop D.J.”
Tsuzuki, T.      172
Tunneling conductivity      see “Conductivity tunneling”
Tunneling experiments      333-334 350 398-399
Tunstall, D.P.      238 255 260 261 578 584 261 262; V.G.I.” “Friedman L.R.”
Two-dimensional systems      341 343-344 353 609
Twose, W.D.      246 623 624 637 640; N.F.”
Uchida, S.      126 221
Ue, H.      256 582 583
Unoccupied states      604 611
Upper critical field      209 211
Upper Hubbard band      489
Uren, M.J.      172; see “Kaveh M.”
Uren.M.J.      75 76 119 122 123 219
Uzakov, A.A.      416 427 442 443 457 460 461 473 474; S.D.”
Van den Dries, L.      166 221;
Van Haesendonck, C.      166 221 213; Y.” “Van L.”
Vandenberg, J.M.      213; see “Hebard A.F.”
Vandorpe, M.      441; see “Lasjaunias J.C.”
Variable range hopping      see “Mott’s variable range hopping law”
Varma, C.M.      441 469 470 649; P.W.” “Shante V.K.S.”
Vavilov, V.S.      461 474
Vetchinkin, S.N.      513
Viggiano, J.      117; see “Chaudhari P.”
Vinokur, V.M.      667; see “Feigel’man M.V.”
Vinter, B.      221; see “Bloss W.L.”
Vollhardt, D.      166 177 215 161 177; P.”
Vul, B.M.      126
W$\ddot{o}$ffle, P.      161 166 177 215 299; W.” “Vollhardt D.”
W$\ddot{u}$rtz, D.      294 296 318 344 346 390 393 397 427 428 429 442; M.”
Wada, Y.      172; see “Fukuyama H.”
Wallis, R.H.      158; see “Mott N.F.”
Walstedt, R.E.      256 260 243 244 256 259 260 578 256 257 260 595 582 584 587 595; K.” “Geschwind S.” “Kummer R.B.”
Wannier function      561
Watanabe, Y.      211; see “Ikebe M.”
Weaire, D.      161; see “Kramer B.”
Weak disorder      634
Weakly localized regime      158 623
Webb, R.A.      77 78 117 119 435; A.B.”
Webman, I.      269
Weger, M.      630 649
Wegner, C.      270
Wegner, F.      6 133 136 161; R.”
Wegner, F.J.      158 161
Weinmann, G.      435; see “Ebert G.”
Wheeler, R.G.      75 76 166 219
White, A.E.      117 119 120
Wild, R.L.      397 295 296 401 402; J.” “Chroboczek J.A.”
Williams, P.M.      608
Wilson, J.A.      608
Wilson, K.G.      213
Winter, J.M.      256; see “Jerome D.”
Wojkiewicz, I.L.      viii; see “Dubois H.”
Woollam, J.A.      211
Wu, F.Y.      629; see “Lieb E.H.”
Wyder, P.      476; see “Perenboom J.A.A.J.”
Wyhof, M.R.      405; see “Pohl H.A.”
Yager, W.A.      255; see “Fletcher R.C.”
Yamaguchi, E.      560 567 569 571 572 574 576 586 587 559 560 570 571 574 577;
Yamaguchi, M.      284; see “Nishida N.”
Yamanouchi, C.      248 265 578 587
Yanchev, J.Y.      414; see “Efros A.L.”
Yassievich, I.N.      495 524 528 543; V.N.”
Yasuhara, H.      206; see “Fukuyama H.”
Ying, S.C.      94; see “Houghton A.”
Yonezawa, F.      559
Yoshioka, D.      166 177
Yosida, K.      214 607; H.” “Ohkawa F.J.”
Zabrodskii, A.G.      400 434
Zallen, R.      382
Zavaritskaya, E.I.      126; see “Vul B.M.”
Zavaritskii, V.N.      126; see “Vul B.M.”
Zawadowskii, A.      635
Zayats, V.A.      489 496 506 507 508 510 489 510 530 536 538; V.N.” “Gershenzon M.”
Zeeman splitting      20 24 95-112 175 191 195 221
Zel’dovich, Y.B.      491 492 494 515 517; A.I.”
Zero-bias anomaly      4 5 28 46 48 56 96 99 137
Zero-temperature conductivity      see “Conductivity zero
Zhuravlev, Yu.E.      5 76 77 110 124 125 131 132 221; M.E.”
Ziman, J.M.      624
Zinov’eva, K.N.      435; see “Zabrodskii A.G.”
Zolotukhin, S.P.      648 649; A.A.”
Zuckermann, M.J.      131; see “Cochrane R.W.”
Zuzin, A.Yu.      39 50 4 50 51 105 112; B.L.”
Zvarykina, A.V.      634 635 662 667; L.N.”
Zvyagin, I.P.      297
Zwerdling, J.      461 474
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