Likharev K.K. — Dynamics of Josephson junctions and circuits :: Электронная библиотека попечительского совета мехмата МГУ

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Likharev K.K. — Dynamics of Josephson junctions and circuits

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Название: Dynamics of Josephson junctions and circuits

Автор: Likharev K.K.

Аннотация:

Written by one of the world's leading theorists working on the Josephson effect, this extensive monograph offers a detailed description of the statics, dynamics and statistics of Josephson junctions. Particular emphasis is placed on the dynamics of new circuits and analog and digital devices using single quanta of magnetic flux. Professor Likharev also describes for the first time in the monograph literature new phenomena of correlated tunneling of single electrons and Cooper pairs in ultrasmall tunnel junctions.

Язык:

Рубрика: Физика/Физика твёрдого тела/Приложения/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1986

Количество страниц: 614

Добавлена в каталог: 18.09.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Claassen, J.H.      4 22 7 55 11 80 11 88 13 82 13 152
Claeson      2 16 6 48 10 61 11 15 11 66 11 69 11 180 12 108 12 113
Claridge, D.E.      10 27
Clark, T.D.      4 39 6 21 10 26 13 53 13 54 13 61 14 24 16 4 16 26
Clarke, J.      1 14 2 26 2 27 2 72 2 126 3 31 3 37 3 38 4 19 4 42 6 50 7 9 7 11 7 35 7 38 7 39 7 40 7 42 7 44 7 48 7 56 7 61 7 62 7 63 7 68 7 98 7 100 7 103 7 106 8 66 8 67 11 118 11 150 11 158 11 166 14 3 14 4 C.20
Clarke, R.N.      14 48
Clem, J.R.      9 56
Cluster, active      458 460
Cluster, passive      458
Cohen, M.H.      2 2
Cohen, R.W.      13 65
Coherence length in normal metals ( $\xi_{N}$ )      39 41 42
Coherence length in superconductors ( $\xi_{S}$ )      41 431 457
Coherent (macroscopic quantum) phenomena      3—7
Coherent arrays      328 417—79 423 430—32 447-63
Coherent reflections      546
Coherent state      430
Coleman, R.V.      13 121
Collings, P.J., P.      44
Combinational (composite) components, frequencies of      301 307 348 351 362 366 404 416 423
Combinational (composite) components, linewidths of      320 351
Commutation relations      20 25
Conductance ()/Resistance (), differential (dynamic)      105 381
Conductance ()/Resistance (), effective      484
Conductance ()/Resistance (), input, of SQUID      215—16 493—94
Conductance ()/Resistance (), leakage ( $G_{L}$ / $R_{L}$ )      48
Conductance ()/Resistance (), normal ( $G_{N}$ / $R_{N}$ )      12
Conductance ()/Resistance (), of coupling circuit      437—70
Conductance ()/Resistance (), of externally shunted junction      46—47
Conductance ()/Resistance (), of SNS sandwich      41
Conductance ()/Resistance (), of tunnel junction      28
Conductance ()/Resistance (), of weak link      41—44
Conductance ()/Resistance (), quantum unit of ( $R_{Q}$ )      25 122 459
Conductance ()/Resistance (), sheet ( $R_{0}$ )      459
Contaldo, A.      2 109
Control characteristics      293
Control current      292
Control line      293
Conveyor-type processors      172
Conveyor-type processors, binding energy of      12
Conveyor-type processors, Cooper pair(s)      3—7 12
Conveyor-type processors, discrete transfer of      546 556
Conveyor-type processors, in weak link      39
Conveyor-type processors, uncertainty relation for      20
Coon, B.D.      8 65
Cooper, L.N.      1 6
Cortes, H.      13 105 13 107
cos $\phi$ term      29 52
Costabile, G.      11 128 15 29 15 32 15 54 15 78 15 144
Coulomb blockade of tunneling      549 551
Coulomb blockade of tunneling, in granular structures      551 561
Coulomb blockade of tunneling, range of      549 553
Coupling circuit      432
Coupling constant      482
Coupling current      433 447 462—63
Coupling loop      435—40 453
Coupling matrix      448 456
Coupling parameter      282—83 393 399 407 409
Coupling resistive      439—40
Cowen, J.A.      6 39
Crisan      13 119
Cristiano, R.      4 48 4 49
Critical coupling      393—396
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ )      6 83
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), density ( $j_{c}$ ) of      34 37—38 130 208 235 366—67
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), linear density ( $J_{c}$ ) of      232
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), of distributed junctions      238—41 246—54 257—60 277—83 532
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), of multijunction interferometers      227—31 259—61
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), of tunnel junctions      28
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), of two-junction interferometers      191—95
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), statistics of      82—84
Critical current (maximum supercurrent, $I_{C}$ , $I_{M}$ ), temperature dependence of      30—31 195
Critical magnetic field      245 257
Critical temperature      12 122
Crocoll, E.      7 19 7 82 8 78
Cromar, M.W.      7 47 7 70 7 102
Cronemeyer, D.C.      11 167
Cross, F.      14 42 14 44
Cross, N.R.      2 118 11 93 11 101 11 104
Crow, J.E.      13 92
Crozat, R      2 147
Crutchfield, J.R      11 42
Cucolo, A.M.      2 162 7 88 12 21 12 22 12 106 12 109 15 133
Cukauskas, E.J.      2 47 2 50 2 165 13 73 13 77
Cupp, J.D.      2 114 11 79 11 94 11 96 11 98 11 113 11 129
Current ()      xiii 5—6
Current -biased junction      54
Current comparators      147 172 219
Current control      292
Current density () of      273
Current displacement ( $I_{D}$ )      13—14
Current excess ( $I_{ex}$ )      40 44 101
Current fluctuation ( $I_{F}$ )      15
Current gain      145
Current gate      293 562
Current injection      145 225
Current injection, distributed      233 234 271—94
Current injection, edge      232 233 235 241—48 250 257 509—10 532
Current injection, lateral (internal-point)      248—52 257—59 276 512 517—20 535
Current injection, multipoint      251 252
Current injection, single-point      249 250 518 535
Current injection, symmetrical      523
Current injection, two-point      195—97
Current leakage      48 421
Current normalization      xvii
Current overdrive      134 135
Current sweeping rate      84
Current wave      260—63
Current, linearly increasing/decreasing      136—37 140—44 180
Current, magnetic ( $I_{H}$ )      226 250 285—86
Current, Meissner      160 235—36
Current, net      183
Current, space-charge limitation of      551
Currie, J.F.      15 86 15 100
Cutler, L.S.      11 126
Daalmans, G.M.      13 19
Dahm, A.J.      2 22 3 2 11 39
Dai, Y. — D.      13 31 3 38 13 44 13 138
Damping      14
Danchi, W.C.      3 40 11 3 11 22 11 141
Danielsen      10 26 11 79
Danielsen, B.L.      11 79
Danilov, V.V.      7 12 7 13 7 36 7 58 7 59 14 7 14 8 14 14 14 20
Darmanyan, S.A.      15 142
Dash, P.C.      15 119
Dashan, R.F.      15 46
Davidson, A.      7 72 8 45 8 98 8 99 11 44 11 167 12 89 13 85 13 127 A.17
Davis, K.L.      15 114
Dayem, A.H.      4 4 11 11
DC curve(s)      88
DC curve(s), effect of external systems on      378— 416
DC curve(s), effect of fluctuations on      113—22 126 127
DC curve(s), effect of microwave irradiation on      310—17 332—343 363 365 414—16
DC curve(s), experimental      48 90 100 101 120
DC curve(s), hysteretic      90 96 316 341 342
DC curve(s), nonhysteretic (continuous)      91 315—16 341—42
DC curve(s), of inductively shunted junction      179
DC curve(s), of R — SQUID      501
DC curve(s), of resistive interferometer      179—81
DC curve(s), of SET/Bloch junction      543 555—56 560—61
DC curve(s), of single junction      89—102 299—364
DC curve(s), of two-junction interferometer      188 200—5
DC curve(s), R branches of      88
DC curve(s), S branch of      88 335
DC (video) response/responsivity      320
DC (video) response/responsivity, classical-detection      321 322
DC (video) response/responsivity, current      322
DC (video) response/responsivity, due to normal current      320—21
DC (video) response/responsivity, effect of fluctuations on      324
DC (video) response/responsivity, selective      322—23

DC (video) response/responsivity, to complex signals      324—26
DC (video) response/responsivity, to white noise      326
DC (video) response/responsivity, wideband      324
De Bruyn Ouboter, R.      3 21 3 22 3 23 6 78 7 4 7 6 7 8 7 10 7 22 8 1 12 2
De Gennes, P.G., P.      34 2 64
De Leonardis, R.M.      15 73
De Lustrac, A.      2 147
De Waal, V.J.      7 46 7 60 7 97 7 99
De Waele, A.Th.A.M.      7 8 7 10 8 1 12 2
Deakin, A.S.      13 35
Deaver, B.S., Jr., P.      23 P.24 1 9 6 47 8 39 10 1 10 3 10 4 10 5 11 87 12 4 12 8 14 35 14 38 C.14
DeLozanne, A.      2 91 2 103 7 50
Deminova, G.F.      13 9
Dempsey, D.G.      6 14
Den Boer, W.      3 21
Denenstein, A.      1 17 2 22 3 2 11 123
Densham      11 63
Dethermalization      84
Deutsch, U.      5 32
Deutscher, G.      13 68 13 71 13 87 13 93 13 96 13 122
Devil’s staircase      364
Devoret, M.H.      3 31 3 37 3 38 11 166
Devyatov, I.A.      11 192 12 114
Dew — Huges, D.      11 133
Dhong, S.H.      5 7 7 86
Diffraction pattern      228 238—40 253
Dilorio, M.S.      2 103 7 50
dispersion relation      530—31
Displaced linear branch      293 527
Distributed junction (structure), (quasi-) one-dimensional      231— 67 275—83 292 293 385—89 399—401 454 505-35
Distributed junction (structure), active edge of      509—511 518 523
Distributed junction (structure), Bloch/SET analog of      564
Distributed junction (structure), boundary conditions for      231 235— 37 249 252 273 280 286 291—92 509-10
Distributed junction (structure), circular      252 264 290 527
Distributed junction (structure), cross-type      284—90
Distributed junction (structure), electromagnetic waves in      261— 64 291—92 285—89 397—401 407—410 416—17 530-533
Distributed junction (structure), energy of      235—37
Distributed junction (structure), in-line      277—78 283 523—24 535
Distributed junction (structure), interconnections of      535
Distributed junction (structure), long      526
Distributed junction (structure), magnetization curve of      244
Distributed junction (structure), mechanical analogs of      509
Distributed junction (structure), Meissner state of      243—46 530—33
Distributed junction (structure), mixed states of      242—46
Distributed junction (structure), nonuniform (inhomogenous)      252—59 386 512
Distributed junction (structure), overlap      278—81 283 293 523—24 535
Distributed junction (structure), passive edge of      509—10 420
Distributed junction (structure), quasiuniform      231
Distributed junction (structure), R state of      260—67 385—89 505-35
Distributed junction (structure), resistive termination of      535
Distributed junction (structure), S states of      237—59
Distributed junction (structure), shaped      246 255—59 281 293
Distributed junction (structure), two-dimensional      271—94 386 528
Distributed junction (structure), uniform      234 237—52 257 261 263 293
Distributed junction (structure), with lateral injection      248—52 257—59 512-13
Distribution, Boltzman      75 163
Distribution, Gaussian (normal)      17 50
Distribution, Gibbs      550
Divin, Yu.Ya      10 54 10 58 10 68 12 70
Dmitrenko, I.      3 24 4 2 6 55 6 79 6 80 7 7 8 63 11 34 12 6 13 4 13 108 14 34 14 63
Dmitrevsky, S.      12 81
Dmitriev, A.      7 107
Dmitriev, V.M.      9 29 12 9 13 111
Dolan, G.J.      2 59 2 86 4 25 11 14 11 16 11 17 12 90
Doll, R.      1 10
Doniach, S.      13 100 13 140 16 29
Doppler effect      533
Dorth, H.      15 9
Dousselin, G.      2 60 13 107
Drake, R.F.      2 36 2 37
Drever, R.W.P.      11 138
Drive (pumping) signal      328 266—67 423— 25 471—502
Driver      266
Drung, D.      7 104 7 110
DSB mode      423
Dueholm, B.      8 99 11 57 11 61 11 68 11 70 12 111 15 48 15 49 15 134
Dunkleberger, L.N.      3 10 5 24 7 14 8 75 15 22
Dutta, P.      1 28
Dynes, R.C.      5 8 7 14 8 50 8 74 15 21
Dzhangiryan, R.G.      15 123
Dzyaloshinskii, I.E.      1 7
D’Addario, L.R.      12 124
D’Humieres, D.      11 47
D’yakov, V.P.      11 86 11 89 11 102 11 111
Ebner, C.      13 146
Eck peak      262—64 288—89 400—1 463 519 520 527 531
Eck, R.E.      4 3 8 62 11 6
Eckern, U.      3 25 15 148
Eckmann, J.P.      6 51
Edelstein, W.A.      14 29
Edrich, J.      2 114 11 83 11 84
Edwards, G.J.      11 95 11 104
Efetov, K.B.      13 99 13 129
Ehnholm, G.J.      14 13 14 17 14 21 14 22
Eick, R.H.      13 5
Eilbeck, J.C.      9 51 9 52 15 50 15 53
Electrometer      562
Electronic simulators of sin $\phi$ , Bak-type      571—75
Electronic simulators of sin $\phi$ , multiplication-type      570—71
Electronic simulators of sin $\phi$ , switch-type      570
Elenskii, V.G., P.      42
Elsley, R.K.      12 63
Encrenaz, P.      12 123
energy bands      23 542 562
Energy barrier ( $U_{0}$ )      66 76
Energy dissipation (loss) at SFNPR effect      306
Energy dissipation (loss) at vortex motion      513—14
Energy dissipation (loss) in ac SQUID      480
Energy dissipation (loss) in electrodes      388 514
Energy dissipation (loss) in R state      88
Energy dissipation (loss) in S state      8
Energy dissipation (loss) in single-junction interferometer      170—71
Energy dissipation (loss), fundamental limitations on      173—74
Energy gap ( $\Delta$ )      30
Energy gap edge smearing (smoothing)      30 50 51 300 421
Energy, diagrams      67 157—61 167 551
Energy, free (Helmholtz) ()      65 236 240 275
Energy, Gibbs ()      65—66 157 167 199 235 244 254 275
Enomoto, Y.      13 79 13 80 13 81 13 149 13 151
Enpuku, K.      5 12 7 314 8 95 8 96 8 97 8 98 8 100 12 46 12 103 15 60 15 75 15 76 15 77 15 102
Entel, D.      13 119
Entin — Wohlman, O.      13 87 13 122
Epperlein, P.W.      8 48 9 15
Epworth, R.W.      3 15 8 71
Equivalent circuit of externally shunted junction      46
Equivalent circuit of junction and resonator      390
Equivalent circuit of junction and transmission line      411 412
Equivalent circuit of low-frequency amplifier      472—73
Equivalent circuit of multijunction interferometer cell      226
Equivalent circuit of single junction      18—19 319—20
Equivalent circuit of single-junction interferometer      154 155 174
Equivalent circuit of two-junction interferometer      189 384
Erne, S.N.      2 144 6 8 6 13 14 41 15 36 15 38 15 113
Esaki, L.      3 42 16 9
Escudero, R.      13 130
Esposito, F.      9 4 9 58 15 2
Esteve, D.      3 37
Etkin, V.S.      11 92 12 71 12 73 12 75
Evans, M.V.      4 46
Evenson, K.M.      11 94 11 96 11 113
Evetts, J.E.      2 170
External charge ( $Q_{e}$ )      561
External circuit (system)      54—55
External circuit (system), admittance/impedance of      54 376—425
External circuit (system), bandwidth ()      414
External circuit (system), linear      54
External circuit (system), narrowband (high-, resonant)      382—84 391—98 414 443
External circuit (system), passive (dissipative)      376 378 389
External circuit (system), weak interaction with      376—92
External circuit (system), wideband      410—14

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