|
|
 |
| Авторизация |
|
|
|
| Поиск по указателям |
|
|
|
|
|
|
|
 |
|
|
|
| Wilson A.H. — The Theory of Metals |
|
|
|
| Предметный указатель |
Lattice, steady state of 296ff
Lattice, thermal conductivity of 292ff
Lautz, G. 230
Leighton, R.B. 142
Lidiard, A.B. 183
Linde, J.G. 110
London, H. 248
Lorentz, H.A. 3
Lorenz number 3 18 201 290ff 318
Lorenz number, numerical values 202 see
Lorenz, L. 3
Lovell, A.C.B. 245
MacDonald, D.K.C. 245 280 282 288 289
Magnetic field, Motion of electrons in 50 160 215
Magneto-resistance effects, electrical conductivity 128 195 215 226 235 313ff
Magneto-resistance effects, thermal conductivity 220 318ff
Magneton number 170 184 191
Makinson, R.E.B. 288 294
Manning, M.F. 85 86 87
Marcus, J.A. 157
Mass tensor 50 173 175
Matthews, J.C. 159
Matthiessen’s rule 282 285 310ff
Maxwell distribution 5 13 113 116 231
McDougall, J. 129 146 152 332
Meissner 214 222 314
Mendelssohn, K. 280 282
Mendoza, E. 282
Miller indices 31
Millman, J. 86
Milner, C.J. 317
Mott, N.F. 90 265 270 277
Mrowka, B. 67 87
Nearly free electrons 35
Nickel, density of states 84
Nickel, electrical conductivity 273
Nickel, equilibrium properties 188ff
Nickel, specific heat 149 189
Nordheim, L. 193 267
Normal modes of a crystal lattice 137ff
Normal modes of a crystal lattice, representing travelling waves 136
O’Bryan, H.M. 95
Paramagnetism, classical theory 150
Paramagnetism, effect of exchange forces on 153
Paramagnetism, numerical values 155ff
Paramagnetism, of a degenerate gas 151ff
Paramagnetism, of ferromagnets above the Curie point 187
Paramagnetism, of the alkalis 12 156
Paramagnetism, of transition metals 157
Paramagnetism, temperature variation of 152
Partition function 160
Pauli, W. 12
Pearson, G.L. 125 248
Peierls, R. 30 175 216 253 293 296 298
Peltier effect 202 206
Penney, W.G. 26
Persoz, B. 190
Photoelectric effect, inner, in semiconductors 122
Pippard, A.B. 231 248
Pratt, J.N. 109
Putley, E.H. 129
Raynor, G.V. 109
Reciprocal lattice 30 33 255 298
rectifiers 120
Reddemann, E. 295
Reduced wave vector 28 37 48
Residual resistance 19 251 266
Residual resistance, connection with Matthiessen’s rule 310ff
Residual resistance, of alloys 274
Reuter, G.E.H.L 248
Rhodes, P. 277 305 332
Riecke, E. 1
Sampson, J.B. 155
Sarginson, K. 245
Scheffers, E. 314 318
Schoenwald, B. 122
Seebeck effect 202
Seitz, F. 64 74 86 155 226 24
Selenium, Brillouin zone 91
Selenium, crystal structure 62
Self-consistent field 52ff 254
Semi-conductors 112ff
Semi-conductors, classification of 117
Semi-conductors, conductivity 117ff 231ff
Semi-conductors, conductivity in a magnetic field 235
Semi-conductors, free path 124 127 131 265 266
Semi-conductors, Hall coefficient 117 120 121 122 126 127 234
Semi-conductors, thermoelectric force 119 121 122 124 232
Semi-metals 44 92 102 106 264 278 281 286 290
Semi-metals, density of states in 44
Shockley, W. 125 129
Shoenberg, D. 173 175
Silicon 59 125ff
Silver sulphide 120
Silver, crystal structure 59
Silver, degeneracy temperature 16
Silver, free path 18 274
Silver, gold-silver alloys 102 274
Silver, specific heat 17 148
Silvidi, A.A. 149
Skin effect, anomalous 247ff
Skinner, H.W.B. 94 95 96
Slater, J.C. 68 84 191
Smith, H.J.M. 141
Sodium, binding energy 71
Sodium, electrical conductivity 280
Sodium, energy levels and wave functions 64 68
Sodium, Lorenz number 290
| Sodium, paramagnetism 156
Sodium, thermal conductivity 288
Sodium, thermoelectric power 286
Sommerfeld, A. 12 208
Sondheimer, E.H. 160 216 219 220 222 243 248 264 266 286 300 307 310 313 323 337
Specific heat of the electrons 11 16 144ff
Specific heat of the electrons, at high temperatures 146 150
Specific heat of the electrons, at low temperatures 144 146 148
Specific heat of the electrons, determined by the density of states 144
Specific heat of the electrons, in ferromagnetic metals 149 178 180 186
Specific heat of the electrons, in normal metals 148
Specific heat of the electrons, in transition metals 149
Specific heat of the lattice vibrations 11 17 133ff
Steady state of the lattice 296ff
Stoner, E.C. 129 146 150 152 178 182 185 188 332
Suhl, H. 248
Superconductivity 148 254
Superlattice 110
Sykes, C. 189
Tamman, G. 110
Tetragonal lattices 63
thermal conductivity 200ff 307ff
Thermal conductivity for anisotropic media 332
Thermal conductivity, at low temperatures 288
Thermal conductivity, classical theory 2 7 232
Thermal conductivity, in a magnetic field 220 318ff
Thermal conductivity, in terms of time of relaxation 8 18
Thermal conductivity, of the lattice 292ff
Thermodynamic potential of the electrons 16 329
Thermodynamic potential of the electrons, in terms of the density of states 144 see
Thermodynamic potential of the electrons, temperature variation 16
Thermodynamic relations between the thermoelectric effects 203 206
Thermoelectric force 202 204 221 286 324
Thermoelectric force of metals 206 286
Thermoelectric force of semiconductors 119 121 122 124 232
Thermomagnetic effects 18 208ff 218ff
Thermomagnetic effects, numerical values 223
Thewlis, J. 107
Thomas, J.G. 282
Thompson, N. 227
Thomson coefficient 202 205 208
Thomson, J.J. 1 242
Tightly bound electrons 38ff
Time of relaxation 1 6 195
Time of relaxation, due to collisions with elastic spheres 3
Time of relaxation, due to impurities 269
Time of relaxation, due to inverse power-law force 10 240 266
Time of relaxation, due to lattice vibrations 264ff
Time of relaxation, exists at high temperatures 264
Time of relaxation, impossibility of unique definition in general ease 6
Time of relaxation, reciprocals additive 266
Time of relaxation, variation with energy 7 205 240 264ff
Time of relaxation, variation with temperature 264ff see
Titchmarsh, E.C. 164 248
Titeica, S. 210
Torrey, H.C. 122
Transition elements, density of states 34 86
Transition elements, electrical conductivity 271ff 324
Transition elements, energy levels 84 86
Transition elements, Lorenz number 319
Transition elements, paramagnetism 157
Transition elements, specific heat 149
Transition elements, thermoelectric force 205
Transition probabilities 94 258
Transition probabilities, symmetry properties 5 194 259
v. Baumbach, H.H. 118 254
Valency rules, approximately valid for elements of groups four, five, and six 70
Valency rules, invalid for metals 71
Valency rules, invalid for metals, and alloys 108
Van Alphen, P.M. 160 169
Van Den Berg, G.J. 282
van Geel, W.C. 123
Variation principles 300ff
Variation principles, for isotropic metals 302
Variation principles, maximum principle 300
Variation principles, minimum principle 301
Veldkamp, J. 97
Verway, E.J.W. 118
Vogt, E. 177
Vogt, W. 122
Voigt, W. 76
von Karman, T. 135
Wagner, C. 117 118 119 121 122
Wave functions of electrons in a metal, as a Fourier series 34
Wave functions of electrons in a metal, determined numerically 64ff
Wave functions of electrons in a metal, of tightly bound electrons 38ff
Wave functions of electrons in a metal, periodic properties 21 29
Wave functions, antisymmetrical 53 71 77 153
Wave functions, of the lattice 257
Wave vector 25
Wave vector, reduced 28 36 37
Wave vector, relation between wave vectors in a collision 255 298
Weber, W. 1
Weiss, P. 180
Weisskopf, V. 266
Whitmer, C.A. 122
Wiedemann — Franz law 1 3 18 276
Wiedemann — Franz law, conditions for validity 201
Wiedemann — Franz law, untrue at low temperatures 290 see
Wiedemann, G. 1
Wigner, E. 64 74 77
Wilkinson, H. 189
Wilson, A.H. 19 113 114 160 175 216 219 271 275 282
Wohlfarth, E.P. 79 157 188 189
X-ray reflexions 32 80
X-ray spectra of metals 93ff
Zener, C. 48 225
Zone quantum number 28 46 49
|
|
|
| Реклама |
|
|
|
|
|
О проекте