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

Poorter      10 32 10 57 11 139 12 86
Potter, C.N.      2 165
Potts, M.W.      14 24
Poulsen, U.K.      2 6
Pound, R.V.      12 80
Powell, S.D.      12 97
Power () consumption      147 562
Power () gain      368 424 454 501
Power () microwave-radiation      377—80 393— 98 413 417 425 443 445 450 455 534
Power () saturation      368 462 562
Prance, H.      16 4 16 26
Prance, R.J.      14 24 16 4 16 26
Prange, R.E.      8 11
Prans, G.P.      13 3
Pre-oscillations      414
Predmore, R.C.      12 98
Pridmore — Brown, D.C.      7 24 11 135
Primary and secondary quantum, macroscopic effects      19—22 165 547
Pritchard, J.P., Jr      8 32
Probability (), conservation law      115
Probability (), density ( $\sigma$ ) of      74 115 486
Probability (), flow ( $\i_{\sigma}$ )      79 115
Probability (), of electrical contact      458
Probability (), of punchthrough      139
Probability (), of transition      82—83
Probability (), of tunneling      27—28
Probability (), packet      553
Prober, D.E.      2 99 2 100 4 6 11 19 12 78 12 129 A.15 A.17
Proto, G.      7 101 8 99 11 143
proximity effect      39—41
Przybysz, J.X.      12 44 15 56 15 74
Pugh, J.R.      14 29
Pulse generators      147
Puma      12 4
Punchthrough      137—43 144 147
Punchthrough, probability of      139—43 144
Purcell, C., P.      47
Quantum fluctuations/noise      19—22
Quantum fluctuations/noise, experimental observation of      109—10
Quantum fluctuations/noise, in ac SQUIDs      489—90 496
Quantum fluctuations/noise, in dc SQUIDs      210—12
Quantum fluctuations/noise, in distributed junctions      533
Quantum fluctuations/noise, in mixers      422—25
Quantum fluctuations/noise, in multijunction arrays      460
Quantum fluctuations/noise, in parametric amplifiers      368—69
Quantum fluctuations/noise, in SET/Bloch junctions      547
Quantum fluctuations/noise, in tunnel junctions (TJM model)      35—36
Quantum fluctuations/noise, in videodetectors      419 420
Quantum metrology      365
Quantum theory of measurements      210 567
Quantum-mechanical golden rule      550
Quantum-mechanical limitations      210—12 368 419 423 424— 25 496 564 567
Quantum-mechanical operators      20 22—23 115 546
Quantum-mechanical uncertainty principle      210—12 369
Quasicharge      542—47
Quasiclassical (WKB) approximation      77—79
Quasimomentum      542
Quasiparticle      see Single electron Normal
Quasiparticle (Martin — Dayem) current steps      337
Quasispin approach      25
R (resistive, dynamic) state      12
R (resistive, dynamic) state, and ( — R) state      139
R (resistive, dynamic) state, lifetime of      121 125—26
R (resistive, dynamic) state, of distributed junctions      242—43 251 260—67 290—92
R (resistive, dynamic) state, of multijunction arrays      457
R (resistive, dynamic) state, of single junctions      87—127 543 552 553
R (resistive, dynamic) state, of two-junction interferometers      200—5
R $\ddot{a}$ is $\ddot{a}$ nen, A.V.      12 98 12 126
Rabotou, A.      13 115 13 161
Rachford, F.J.      13 73 14 49
Radcliffe, W.J.      16 24
Radebanch, R.      6 62
Radparvar      9 50 15 39
Radzikhovskii, V.N.      10 63 11 78
Rafuse, R.      10 9
Raider, S.I.      2 36 2 37 2 152 7 44 7 45
Rajeevakumar, T.V.      9 47 12 44 15 46 15 56 15 57 15 74 15 110
Raley, N.      2 78 2 105
Rammal, J.      13 148
Rantala, B.      14 17 14 21
RC constant ( $T_{N}$ )      14 69
Reactance of supercurrent      9 357
Reactance of supercurrent, nonlinear      9 327
Reactance of supercurrent, time-dependent      302—3 304
Readi Nasser, C.      11 175
Recharge of capacitance      129—30 546 555
Recharge of capacitance, exponential      131
Recharge of capacitance, linear      130
Recharge of capacitance, time ( $\tau_{R}$ ) of      130—31
Reduced equations for (quasi-) one-dimensional junction      256 258—59 267
Reduced equations for ac SQUID      484
Reduced equations for lumped junction      313—20 329
Reduced equations for two-dimensional junction      285—87
Reference      419
Reference oscillator      572—73
Reible, S.A.      15 80
Reidel      4 50
Reidel peak      33 96 306
Reidel, E.      2 9
Relaxation length      520
Relaxation oscillations      179—81 201—2 214
Relaxation time ( $\tau$ )      13 70—71 169 173 300
Renard, P.      2 173
Renne, M.J.      11 27
Rennie, R.      15 98
Resistance, see Conductance Resonance(s), alternating      414
Resnick, J.      13 58
Resonance frequencies of ac SQUIDs      480 491—93
Resonance frequencies of breather      515
Resonance frequencies of distributed junctions      260 261 290 291 531
Resonance frequencies of external circuits      381—82
Resonance frequencies of multijunction interferometers      262
Resonance frequencies of single junction      68 162 300 302
Resonance frequencies of single-junction interferometer      161 168 307
Resonance frequencies of two-junction cell      443
Resonance frequencies of two-junction interferometer      201
Resonance(s), (super)current peaks      262 382—89 396—409 415—16 443
Resonance(s), curve      402 492
Resonance(s), electron-spin      383
Resonance(s), Fiske-mode      260 261
Resonance(s), nonlinear      345 491
Resonance(s), parallel-type      381—82 390—95 414
Resonance(s), plasma      68
Resonance(s), series-type      383 392 397—98 414 443
Return current ( $I_{R}$ )      96
Return current ( $I_{R}$ ), and phase jumps      169
Return current ( $I_{R}$ ), and punchthrough      137—43
Return current ( $I_{R}$ ), and relaxation oscillations      181 201
Return current ( $I_{R}$ ), at low damping      96—99
Return current ( $I_{R}$ ), experiment vs. theory      99
Return current ( $I_{R}$ ), normalized ()      96
Reversible computation      172—73 220 567
Reymann, D.      11 124
Rhoderick, E.H., P.      37
Richard, A.      12 98
Richard, J., Jr      11 185
Richards, P.L., P.      43 4 22 6 58 10 51 10 52 11 13 11 19 11 80 11 88 11 110 12 59 12 78 12 87 12 92 12 94 12 126 12 129
Richter, J.      2 35 8 53
Richter, W.      10 70
Rifkin, R.      8 39 10 4 10 5 14 35
Rinderer, L.      15 19
Risken, H.      4 35 4 38 10 33
Risley, A.S.      11 94 11 96 11 98 11 100 11 115 11 129
Ritala, R.K.      7 94 11 152 11 162 11 173
Robert Sinclair, W.      2 48
Rochlin, G.I.      2 132 2 133 A.2
Roesler, R.F.      12 100
Rogalla, H.      14 50
Rogers, C.      2 62 2 148
Rogovin, D.      2 22 2 23

Rohrer, H.      16 29
Rolder, D.      11 27
Romani, G.L.      14 18 C.18
Rorden, L.H.      7 54
Rose — Innes, A.C., P.      37
Rose, K.      13 67 13 69
Rosenbaum, R.      13 71 13 72
Rosenblatt, J.      2 60 13 95 13 105 13 107 13 114 13 115 13 161
Rosenstein, I.      9 18
Rotating — Wave approximation      312
Roukes, M.L.      12 96
Round — Vortex approximation      286 288—90
Rowe, H.E.      1 23
Rowell, J.M., P.      2 8 19
Rozhavskii, A.S.      13 126
RSJ model      45—47
RSJ model, basic equation in      47
RSJ model, generalized      45
RSJ model, vs. Kramers — Kronig relations      52—53
RSJN model      48—49
RSJN model, basic equation in      93—94
RSJN model, vs. Kramers — Kronig relations      52—53
Rubin, L.G.      6 71
Rubinstein, J.      8 18
Ruby, R.      2 78 2 93
Rudenko, E.M.      9 60
Rudenko, V.N.      14 28
Rudman, D.A.      2 51 2 52 2 55 2 174
Rudner, S.      2 16 6 48 10 61 11 15 11 66 11 69 11 180 12 91 12 113 12 122
Rulev, K.A.      12 83
Rusby, R.L.      6 66
Russer, P.      1 21 10 10 10 43 11 25
Russo      8 52 12 11 12 13
Ryabova, N.A.      15 35 15 37 15 131
Rylov, S.V.      5 42 6 84
Ryzhkov, V.A.      2 92 2 104
S (superconducting, stationary) states      8
S (superconducting, stationary) states, linear effects in      299—301
S (superconducting, stationary) states, of Bloch/SET junctions      544 552
S (superconducting, stationary) states, of distributed junctions      237—59 267—90
S (superconducting, stationary) states, of multijunction arrays      457
S (superconducting, stationary) states, of multijunction interferometers      227—31
S (superconducting, stationary) states, of resistive interferometers      175
S (superconducting, stationary) states, of single junctions      65—66
S (superconducting, stationary) states, of single-junction interferometers      156—63
S (superconducting, stationary) states, of two-junction interferometers      190—200
S (superconducting, stationary) states, small fluctuations in      67—73
Sadorf, H.      8 78
Saermark, K.      2 135 11 59 11 64
Saggese, A.      2 162
Saggese, M.R.      7 88
Sakai, K.      11 160
Sakai, S.      5 30 15 41 15 139 15 141
Salerno      15 31 15 112 15 120
Salleh, K.M.      7 20
Salomaa, M.M.      11 152 11 173
Salvo, C.      14 39
Sample, H.H.      6 71
Samplers      147—79 172—73
Samuelsen, M.R.      9 51 9 52 11 59 12 111 15 23 15 30 15 31 15 47 15 49 15 67 15 83 15 115 15 120 15 125 15 126 15 127 15 130 15 134
Samus’, A.N.      2 79 2 88 2 104 9 46
Sanchez, D.H.      13 56 13 57
Sandberg, V.D.      11 138
Sandell, R.D.      2 86 2 98 6 47 6 81 11 135 11 190 13 26 13 27 13 29 13 45
Sanders, J.A.      11 146
Sands, M., P.      33
Sandwich-type structures      27 232 235 271—74
Sandwich-type structures, SIS (planar tunnel junctions)      27 36
Sandwich-type structures, SNS (weak link junctions)      38 41 235 369 383
Santhanem, P.      11 19 12 78
Sato, R.      15 42
Sauvageau, J.E.      2 175 2 176 13 1 13 39
Sauzade      14 12
Savo, B.      15 6 15 20 15 32 15 54 15 78 15 133 15 135 15 144
Sawada, Y.      7 112 13 129 15 62
Saxena, A.M.      13 109
Scalapino, D.J., P.      10 P.11 P.14 1 12 2 21 2 22 2 23 3 2 4 3 6 2 8 16 8 21 8 62 8 87 8 92 11 6 11 120 13 12
Scanning (vacuum) tunnel microscopy      562
Sch $\ddot{o}$ n, G.      2 182 3 25
Schaeffer, H.H.A.      12 68
Scheidel, A.      7 82
Scherstyuk, N.I.      9 34
Scheuermann, M.R.      8 49 8 91 12 45 15 46 15 51 15 79
Schiel, D.      10 70
Schlup, W.A.      2 142 2 143
Schmid, A.      16 10
Schmidt, R.      14 42
Schneider      15 87 15 88 15 89 15 90
Schneider, M.V.      12 98
Schnyrkov, V.I.      6 79 6 80 10 6
Schr $\ddot{o}$ dinger equation, energy bands of      23 542 562—63
Schr $\ddot{o}$ dinger equation, for current biased junction      77
Schr $\ddot{o}$ dinger equation, for quantum particle      3
Schr $\ddot{o}$ dinger equation, for unbiased junction      19—20 22
Schrieffer, J.R.      1 6 2 18
Schrijner, P.      7 99
Schroen, W.H.      8 32 9 32
Schroter      13 158
Schuller, I.K.      13 165 14 23
Schulman, L.S.      7 32
Schultz — Du Bois, E.O.      7 17
Schuss, Z.      4 44 7 92
Schwall, R.E.      13 118
Schwartz, B.B.      6 5 13 7
Schwartz, D.B.      2 175 2 176 3 36 4 12 4 25
Schwartz, S.E.      12 115 13 132
Schwidtal, K.      8 34
Schyfter      2 78
Scott, A.C.      1 33 9 41 15 1 15 2 15 3 15 13 15 27 15 50 15 53 15 54 15 59 15 80
Scott, W.C.      2 134
Secondary quantum macroscopic effects      19—25 77 165 541 547 555
Seeck, S., A.      4
Seeger, A.      15 9
Seidel, P.      8 53
Seifert, H.      8 48 11 132 11 151 11 170
Self-pumping      301
Self-pumping, Josephson-junction mixers with      422—23
Self-pumping, on a harmonic of Josephson frequency      306
Self-pumping, parametric amplifiers with      327—28
Semenov, V.K., P.      25 2 88 2 104 2 183 4 18 4 32 4 40 5 38 5 39 5 42 6 84 8 24 8 44 8 58 9 4 9 13 9 14 9 19 9 46 9 57 9 58 10 28 10 41 10 49 10 65 11 24 11 50 12 29 12 35 12 36 A.3 A.18
Sen, B.      3 36
Senitzky, I.R.      1 39
Senoh      11 142
Sepp $\ddot{a}$ , H.      6 68 14 60 14 71
Series component of fluctuations      439
Series connection of Bloch/SET junctions      564
Series connection of Josephson junctions      367 421 422 431 454 459
Series dc bias      433—43
Series resonator      383 392 397—98 414 443
SET oscillations      541 552—60
SET transistor      562
Seto, J.      2 75
SFNPR effect      304 306 310 328
Shapira, Y.      13 87
Shapiro, S., P.      43 1 19 2 10 10 34 10 51 11 1 11 12 11 28 11 41 12 53
Shavratsky, S.Kh      15 17
Shaw, D.M.      2 165
Shekhter, R.I.      16 17 16 21
Shen, T. — M.      11 13 12 59 12 87 12 92
Shen, W.D.      8 89
Sherrill, M.D.      8 47 9 22
Shift register      266—67
Shin, E.E.H.      6 5
Shin, S.      6 34
Shin, W.Y.      13 144 13 146
Shingawa      11 144
Shinoki, F.      2 45 2 46 2 49 2 169 2 171 2 172 2 177 7 109
Shiota, F.      6 34 A.16 A.19
Shirae, K.      14 46
Shmidt, V.V.      8 40 8 41 8 56 12 76 15 72 15 81

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