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| Goldsmid J., Drabble H. — Thermal Conduction in Semiconductors |
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| Ïðåäìåòíûé óêàçàòåëü |
Abdullaev, G.B. 177
Abeles, B. 166 189
Abrahams, M.S. 179 187
absolute measurements 15—18
Acceleration of electrons 48
Acoustic modes 61—63 121
Adiabatic principle 41
Airapetyants, S.V. 186 194 195
Aliev, G.M. 177
Alkali halides 146
Alloys, electron and phonon scattering in 194—197
Alloys, lattice conduction in 161—164 186—194
Aluminium antimonide 185
Ambegaokar, V. 158 160 167
Ambipolar diffusion see "Bipolar thermodiffusion"
Amirkhanov, K.I. 175
Amorphous solids 6
Angstroem, A.J. 25
Anharmonicity of atomic vibrations 3 93—94
Anharmonicity, effect on lattice conductivity 99—101 135—137 144—145
Antimony 9 177—178
Antimony telluride 185
Antimony telluride, alloys 189—191 193 196
Atomic weight, effect on lattice conductivity 200—202
Austin, I.G. 133
Bagduev, G.B. 175
bands see "Energy bands"
Bardeen, J. 91
Bashshaliev, A.A. 177
Bauerle, J.E. 21 187
Beer, A.C. 219
Berman, R. 137 143 152 154 168 171 182
Biermasz, T. 5
Bipolar thermodiffusion 12 76 175
Bipolar thermodiffusion in bismuth telluride 125—126
Bipolar thermodiffusion, theory of 115—119
Birkholz, U. 29 189
Bismuth 9 177—178
Bismuth selenide 120—121 185
Bismuth selenide, alloys 189—191 193—194
Bismuth selenide, electronic component of 122—124
Bismuth selenide, lattice conductivity of 184
Bismuth telluride 10 26 28 30 32 120—121
Bismuth telluride, alloys 189—191 193—196
Bismuth telluride, bipolar effect in 125—126
Bismuth telluride, electronic component of 124
Bismuth telluride, lattice conductivity of 181—185
Bismuth telluride, magnetic effects in 131—134
Blackman, M. 146
Blatt, E.J. 92
Boltzmann equation for electrons 79—82
Boltzmann equation for phonons 83—85
Boltzmann equation, relaxation time solution of 91—92
Boltzmann equation, scattering term in 85—88
Boltzmann equation, variational solution of 89—91
Bonds, covalent 35
Bonds, ionic 34
Bonds, metallic 34
Boundary conditions for wave function 40—41
Boundary scattering 5 93 142—143 151
Boundary scattering in bismuth 177
Boundary scattering in germanium 169—171
Boundary scattering in tellurium 172
Boundary scattering, effect on Seebeck coefficient 169—171
Bowers, R. 21 187
Bowley, A.E. 131 182
Braunstein, B. 179 187
Brillouin zone for electrons 45
Brillouin zone for phonons 61 95 101 141
Brockhouse, B.N. 157
Busch, G. 127 179 180
Cahn, J.H. 32
Callaway, J. 169
Carruthers, J.A. 168
Cell, unit 36
Chase, M.N. 219
Chasmar, R.P. 19
chemical potential 52
Choquard, P.F. 219
Collisions of electrons 50—51
Collisions of phonons 66
Comparison measurements 18—22
Compound semiconductors 179—185
Conduction band 58
Conductivity of intrinsic semiconductors 116
Conductivity, electrical 74—75
Conductivity, formulae for 108 114
Conwell, E. 10
Cores 34
Cornish, A.J. 21 187
covalent bond 35
Cowles, L.E.J. 26
Crystal symmetry 71—72
Cyclotron resonance 62
De Haas, W.J. 5
Debye model for lattice spectrum 63 91 140 145 151
Debye model for lattice spectrum at high temperatures 157
Debye temperature 8 63 141 144
Debye temperature of bismuth telluride 182
Debye temperature of germanium 168
Debye temperature, related to velocity of sound 191
Debye, P. 3
Deformation potential 91—92
Delves, R.T. 131 182
Density of states 53 78
Density of states in semiconductors 58—59
Detailed balance principle 95
Devyatkova, E.D. 120 121 173 181
diamond 4 171—172 185
Dielectrics 2—7
Diesselhorst, H. 29
Diffusivity, thermal 25
Dingle, R.B. 218 219
Dislocations, effect on lattice conduction 6 102 172 182
Distribution function for electrons 51—53 77—78 111
Distribution function for phonons 65 83
Drabble, J.R. 133
Dugdale,J.S. 145
Dynamic measurements 22—29
effective mass 49
Effective mass in semiconductors 58 62 91 105
Effective mass in thermoelectric materials 201
Efimova, B.A. 195
Ehrenreich, H. 197
Eigenfunctions 41—44
Eigenvalues 41
Elastic moduli 3 136
Elastic moduli, third order 136
Electrochemical potential 54 204
Electrochemical potential for sub-systems 71
Electrochemical potential, equilibrium 54—58
Electrochemical potential, non-equilibrium 67—68
Electronic thermal conductivity 7—12 104—134
Electrons in real crystals 49—50
Electrons in semiconductors 58
Electrons, Boltzmann equation for 79—82 85—92
Electrons, distribution function of 51—53 77—78 111
Electrons, effective mass of see "Effective mass"
Electrons, free 35
Electrons, mobility of 111
Electrons, phonon interactions with 49 85—87
Electrons, statistics of 50—59
Electrons, wave packets 47—49
Elford, M.T. 176
energy bands 44
Energy bands, conduction 58
Energy bands, contribution to transport 56—58
Energy bands, empirical form of 46
Energy bands, many-valley form of 113
Energy bands, valence 58
| Energy bands, variation in position of 46
Energy potential of electrons 38 43
Energy potential of lattice 60 64 93
Entropy of electrons 51
Entropy of full band 57
Entropy production 203—212
Entropy production in electron system 82—83 87 89—91 209—212
Entropy production in phonon system 84—87
Entropy production, due to imperfections 102 148
Entropy production, phonon-phonon 97—99 209—212
Entropy, flow 207 209
Ettingshausen effect 131
Eucken, A. 2 146
excitons 12 181
Exclusion principle 51 88
Extrinsic semiconductors 10—12 71 105—115 119—125
Fermi - Dirac distribution function 51—53
Fermi level 54 see
Fermi — Dirac integrals 108 217—220
Fermi — Dirac integrals, limiting cases of 109—111
Figure of merit 30 199—201
Fischer, G. 172
Flow of electrons 69—70 203—212
Flow of electrons in semiconductors 70—71
Flow of electrons, expressions for 79
Flow of energy 69—70 203—212
Flow of energy in phonon system 84
Flow of energy on free path basis 138—140
Flow of entropy 207 209
Forbes, J.D. 14
Force, thermodynamic 67 203
Foster, E.L. 152 168 171
Four-phonon processes 6 166 180
Francl, J. 21
Frederjkse, H.P.R. 180
Free path due to boundaries 142—143
Free path due to imperfections 150 158
Free path due to umklapp processes 158
Free path in alloys 163
Free path of electrons 8 10
Free path of phonons 4—5 66 137—140
Free path, effective 151
Friedberg, S.A. 16
Gallen, H.B. 203
Gallium arsenide 179 185
Gallium arsenide, alloys 187 193
Gallium phosphide 185
Gallium phosphide, alloys 187 193
Gallium selenide 184 185
Gamma function 109
Garslaw, H.S. 25
Gasimir, H.B.G. 5 143
Geballe, T.H. 6 166 168 169
Genzel, L. 175
Germanium 10 36 112 179
Germanium, alloys 161—163 186 193
Germanium, electronic component of 127
Germanium, isotope effect in 166—168
Germanium, lattice conductivity of 165—171
Germanium, magnetic effects in 130
Germanium, vibration spectrum in 157
Gershtein, E.Z. 121
Glass 6
Goldsmid, H.J. 17 30 124 127 131 181—183 189 197 198
Green, A. 26
Gruneisen parameter 137 144 165 179
Hall effect 75 130
Hamiltonian 37—38
Harman, T.G. 30 32
Hashimoto, K. 120 122 184
Herring, G. 68 92 113 170
Hogkings, E.F. 120 184
Holes 59 114
Hooke's law 136
Hull, G.W. 6 166 169
Imperfections 6 103 137
Imperfections, effects on lattice conductivity at high temperatures 156—164
Imperfections, effects on lattice conductivity at low temperatures 148—156
Imperfections, effects on, electrons 49—51 85—88
Imperfections, effects on, phonons 65 93 101—103
Impurities, effects of, on electrons 105
Impurities, effects of, on lattice conductivity 12
Impurity states 49
Indium antimonide 21 112 120
Indium antimonide, electronic component of 127
Indium antimonide, lattice conductivity of 179—180 185
Indium arsenide 21
Indium arsenide, alloys 187—188 193
Indium arsenide, lattice conductivity of 179—180 185
Indium phosphide 185
Indium phosphide, alloys 187 188
Intrinsic semiconductors 12 35 115—119 125—129
Ioffe, A.F. 22 25 30 184 186 188 194 198
Ioffe, A.V. 22 25 184 186 188 194
ionic bond 34
Ionized-impurity scattering 105
Irreversible thermodynamics 67—77 203—212
Isotopes at high temperatures 160—161
Isotopes at low temperatures 152—156
Isotopes in germanium 166—169
Isotopes in tellurium 173
Isotopes, effect on lattice conductivity 6 101—102
Iyengar, P.K. 157
Jaeger, J.C. 25
Jaeger, W. 29
Jensen, R.V. 189
Kaganov, M.A. 25
Kanai, Y. 26 180 181
Kazlaev, M.A. 175
Kettel, F. 127 166
Keyes, R.W. 146
Kingery, W.D. 21
Kittel, C. 6
Klemens, P.G. 6 151 158 172
Kohler, M. 89
Kohlrausch, F. 29
Kolomoets, N.V. 186 194
Kuhn, E. 146
Lattice, mechanics 59—63
Lattice, scattering of electrons 91—92 105
Lattice, structure 36
Lattice, thermal conductivity 2—7 135—197
Lattice, vector 36
Lattice, vibrations 2—3
Lattice, waves 4 61 63
Lawson, A.W. 145
Lead selenide 185
Lead selenide, alloys 188—189 193 196
Lead telluride 10 26 179 202
Lead telluride, electronic component of 120—122
Lead telluride, lattice conductivity of 181 185
Lees, C.H. 14
Leibfried, G. 137 140 144 157
Lindemann melting rule 146 179 191
Lindemann, F.A. 146
Lithium fluoride 154
Logan, M.J. 32
Longitudinal modes 62
Lorenz number 9 109—110
Lorenz number in germanium 127—129
Lorenz number in intrinsic semiconductors 10
Lorenz number in magnetic field 129
Lorenz number in metals 9
Lorenz number in semiconductors 10
MacDonald, D.K.C. 145 181 184
Magnetic field effects on, phenomenological coefficients 69—72
Magnetic field effects on, thermal conductivity 129—134
Magnetic field effects on, transport properties 75 see
Magneto thermal resistance 129—134
Magnetoresistance 75
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