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Mendelsohn K. — Cryophysics

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Название: Cryophysics

Автор: Mendelsohn K.

Аннотация:

The aim of this book is to provide a reasonably short but comprehensive account of low temperature physics. While it is hoped that this survey is free from serious omissions, detailed treatment has been avoided throughout- Reference is made to specialized books and articles but not to individual papers. Developments up to the middle of 1959, so far as they appear significant, have been included but a conscious effort has been made to curb unbalanced enthusiasm for current research.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1960

Количество страниц: 192

Добавлена в каталог: 13.05.2013

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Предметный указатель

Abraham, B.M.      155
Abrikosov, A.A.      158
Absolute zero      1
Allen, J.F.      134 137 158
Ambler, E.      22 64 69
Amontons, G.      1
Andronikashvili, E.L.      136 152 158
Anomalous skin effect      79
Antiferromagnetism      40 55 58—62
Atkins, K.R.      158
Azbel, M.Ya.      69
Babiskin, J.      68
Bagguley, D.M.S.      69
Barber, C.R.      32 33
Bardeen, J.      123 126
Barford, N.C.      170
Baum, J.L.      155
Berman, R.      82—84 90
Bethe, H.      77
Biondi, M.A.      126
Bizette, B.      60
Blackman, M.      35 36
Bleaney, B.      58 63 69
Bloch — Grueneisen formula      72—75
Bloch, F.      71 72 123
Bohr magneton      51
Boks, J.D.A.      130
Bose — Einstein statistics      44 123 127 149—151
Boundary scattering      81 120 148
Bowers, K.D.      69
Brewer, D.P.      142 153 155
Bridgman, P.      160
Brittle fracture      164
Brute force method      63
Btenakker, J.J.M.      158
Bubble chamber      9 167 168
Cailletet, G.      4
Cannaday, R.L.      23
Cascade cooling      6
Casimir, H.B.G.      69 81 112 122
Chambers, R.G.      67
Characteristic temperature      36-38 74 178
Charles' law      24
Clement, J.R.      30
Clusius, K.      130
Co-operative effects      39—43 54—62 103 130
Collins, S.C.      10 23
Compressibility      49 80 162 163
Cooke, A.H.      28 69
Cooper, L.N.      123
creep      164
Cryotron      124—126
Curie — Weiss law      52 53 55
Curie's law      17 24 26—28 51 52
Cyclotron resonance      69
Daane, A.H.      70
Dabbs, J.W.T.      68
Daniels, J.M.      68
Darby, J.      20
Daunt, J.G.      20 28 49 106 137 146 153 155 158
Davies, M.      23
De Boer, J.      153 158
De Haas — Van Alphen effect      65—68
De Haas, W.J.      65 92
de Klerk, D.      23
de Launay, J.      49
Debye function      36—38 72 176 177
Debye, P.      16 35 36 80
Degeneracy parameter      44
Desirant, M.      110
Desorption cooling      7 11
Dewar vessel      14 15
Dingle, R.B.      158
Dipole interaction      54
Dislocations      120 164
Dobbs, E.R.      170
Domb, C.      158
Drude, P.      43 71
Dugdale, J.S.      158
Dulong and Petit's law      34 37 43
Durieux, M.      33
Edwards, D.O.      142 155
effective mass      45 46 69 150 158
Einstein function      85
Einstein, A.      2 35 36 149
Eisenstein, J.      126
Electrical conductivity      68 71—79
Electron specific heat      43—46 102 178
Equation of state      26
Equipartition of energy      34
Eucken, A.      80
exchange interaction      54 62
Expansion engine      4 9 10
Expansion, single stroke      4 11—18
Faber, T.E.      126
Fairbank, W.M.      157
Faraday method      51 52
Fatigue      164
Fermi surface      45 66 67 77 79 106 120 157
Fermi — Dirac statistics      44 127 157
Ferrimagnetism      62
Ferroelectricity      41
ferromagnetism      45 62 95
Feynman, R.P.      148 151 158
Figgins, B.F.      162
Fluorine, liquid      10
Forrester, A.T.      126
Free radicals      165—167
Froehlich, H.      122 123
Garfunkel, M.P.      126
Garrett, C.G.B.      23
Gas degeneracy      2 43
Gas thermometer      24—26
Giauque, W.P.      16
Ginsburg, V.L.      122
Gorter, C.J.      21 63 64 69 70 112 122 126 132 141 148
Gouy method      51 52
Grace, M.A.      68
Grimes, L.G.      158
Grueneisen, E.      72 162
Hall effect      68 77
Hall, H.E.      148
Hallett, A.C. Hollis      158
Hammel, E.F.      158
Hatton, J.      20
Heat conductivity      12 13 68 79—90 119—120 140—143 153
Heat exchanger      4 7 8 47
Heat flush separator      154 155
Heat influx      14 19 46 146
Heer, C.V.      20
Heisenberg, W.      121
Helium 3, cryogenics      14 16
Helium 3, entropy      156 157
Helium 3, melting curve      155 156
Helium 3, specific heat      158
Helium 3, vapour pressure      153 174 175
Helium 3, viscosity      153 158
Helium 4, critical velocity      136 142 146 148
Helium 4, entropy      131 152
Helium 4, film      19 134 145—147
Helium 4, gap model      150
Helium 4, heat of transport      138 139 141
Helium 4, melting curve      128 132
Helium 4, phase diagram      128—130 132
Helium 4, rotation of      148
Helium 4, solid      81 128 129 131
Helium 4, vapour pressure      30 129 172 173
Helium 4, viscosity      133
Helium 4, vorticity      135 148 149
Helium liquefaction      9—13

Helium mixtures      154 155
Henry, W.      53
Hill, R.W.      49 178
Hudson, R.P.      23 64
Hydrogen liquefaction      8
Hydrogen, ortho and para      8 30
Hydrogen, vapour pressure      80 171
Hyperfine structure      55 59
Ideal resistance      73 76 86
Internal rotation      42
Inversion curve      5 6
Ion paramagnetism      16—21 27—29 50—59
Isotope scattering      88
Jackson, L.C.      147 158
Jennings, L.D.      70
Jones, G.O.      162 170
Jones, H.      137
Jonkers, C.D.      8
Joule — Thomson effect      5 6 9 10
Kaner, E.A.      69
Kapitza, P.L.      10 77 78 134 141
Keesom, P.H.      49
Keesom, W.H.      128 130 158
Khalatnikov, I.M.      126 152 158
Kittel, C.      22 65 84
Klemens, P.G.      90 91
Koehler, J.W.L.      8
Koppe, H.      121
Kramers, H.C.      132 158
Kubo, R.      69
Kuper, C.G.      126
Kurti, N.      21 22 27 28 56 58 69
Lambda point      130
Landau, L.D.      59 65 136 137 144 145 150—152 157
Lande factor      51 100
Lane, C.T.      148
Langevin, P.      51
Lasarev, B.G.      62
Law of corresponding states      1 129 158
Legvold, S.      70
Lidiard, A.B.      69
Lifshits, E.M.      158
Lindemann, F.A.      35 36
London, F.      111—114 118 122 126 149—151 154 158
London, H.      111—114 117 118 122 138
Long, E.      158
Lorentz, H.A.      48 54 71 77
Lorenz number      87
MacDonald, D.K.C.      49 73 74 76 91
Magnetic cooling      16—22 54—56
Magnetic refrigerator      20
Magnetic specific heat      40 55 56 59 61
Magnetic thermometer      18 26—29
Magneto-resistance      77—79 89
Makinson, R.E.B.      86 88
Maser      168 169
Matthias, B.T.      95 126
Matthiesen's rule      75 76 86
Mechano-caloric effect      137—139
Meissner effect      98—100 111 116 123
Meissner, W.      72 99
Melting curve      128 132 155 156 160 161
Mendelssohn, J.      41
Mendelssohn, K.      28 73 106 126 137 149 153
Meyer, L.      158
Minkoff, G.J.      170
Misener, A.D.      134
Morse, R.W.      126
Mott, N.P.      45
Nagamiya, T.      69
Neel, L.      59 60 69
Negative temperature      169 170
Nernst's theorem      see "Third law of thermodynamics"
Nernst, W.      1—8 34 35 36 46 46 68
Nuclear cooling      21 22
Nuclear orientation      22 48 60—65 156 157
Nuclear paramagnetism      21 62
Nuclear polarization      68
Olsen, J.L.      77 79 91
Onnes, H. Kamerlingh      92 96 119 128 130
Onsager, L.      54 65 148
Order-disorder transformation      39 40
Osborne, D.W.      155
Oscillatory effects      65—69
Owen, J.      69
Palevsky, H.      151
Paramagnetic relaxation      56 57 59
Paramagnetic resonance      57 58 69
Paramagnetic saturation      52 58
Parity, non-conservation of      64
Parker, G.W.      64
Parkinson, D.H.      33 42 49
Peierls, R.E.      77 80
Pellam, J.R.      159
Persistent currents      98 113 114 149
Peshkov, V.P.      14 16 144 159
Phonons      80 120 121 132 138 136 150 151
Pickard, G.L.      12
Pippard, A.B.      118 119 122 126
Planck, M.      2
Pomeranchuk, I.      83 156
Poulis, N.J.      70
Pound, R.V.      63
Prigogine, I.      159
Quasi-free electrons      45 74 75
Rare earths      42 43 54 62
Regenerator      7 8
Residual resistance      73 76 86
Resistance minima      76 77
Resistance thermometer      31 32
Richards, P.L.      118
Riley, D.P.      162
Rinderer, L.      79
Roberts, L.D.      64
Robinson, F.N.H.      21 22 68
Rollin, B.V.      20
Rose, M.E.      63 64
Rosenberg, H.M.      87 89 91 164 170
Rotons      150—152
Rowell, P.M.      121
Ruhemann, B.      6
Ruhemann, M.      6 23
Satterthwaite, C.B.      126
Schottky, W.      39 55
Schrieffer, J.R.      123
Schulz-Dubois, E.O.      170
Scott, R.B.      23
Second sound      143—145 152
Semiconductors      84 85
Serin, B.      126
Shoenberg, D.      65 67 70 110 111 126
Shubnikov, L.V.      59 62
Silsbee's hypothesis      96
Simon, F.E.      10 12 21 22 28 42 128 160
Small scale technique      10—18
Smith, R.S.      158
Sommerfeld, A.      44 45
Sondheimer, E.H.      91
Specific heat      34—36 55—57 72 80 84 102—105 130 153
Specific heat anomalies      38—43 56 61 103 130
Spedding, F.H.      42 70
Spohr, D.A.      21 22
Squire, C.P.      60 126
Sreedhar, A.K.      153
Stark effect      54 55 59
Steele, M.C.      68
Steele, W.A.      149
Steenland, M.J.      23 70
Stevens, K.W.H.      69
Superconductive cooling      22 23 102

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