Adachi S. — Physical Properties of III-V Semiconductor Compounds InP, InAs, GaAs, GaP, InGaAs, and InGaAsP :: Электронная библиотека попечительского совета мехмата МГУ

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Adachi S. — Physical Properties of III-V Semiconductor Compounds InP, InAs, GaAs, GaP, InGaAs, and InGaAsP

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Название: Physical Properties of III-V Semiconductor Compounds InP, InAs, GaAs, GaP, InGaAs, and InGaAsP

Автор: Adachi S.

Аннотация:

The objective of this book is two-fold: to examine key properties of III-V compounds and to present diverse material parameters and constants of these semiconductors for a variety of basic research and device applications. Emphasis is placed on material properties not only of Inp but also of InAs, GaAs and GaP binaries.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1992

Количество страниц: 318

Добавлена в каталог: 19.03.2006

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

Предметный указатель

Canal, F.      198 220
Capasso, F.      98 114 262
Cappy, A.      285
Cardona, M.      36 43 45 47 73 92 104 110—112 115 116 120—121 125 128 130—132 134 155 187 189 190 198 220 285
Carenco, A.      221
Caridi, E.A.      270—271 282 286
Carles, R.      47
Carlson, R.O.      62
Carrier scattering, acoustic      118 126 174 224 228 233 237
Carrier scattering, alloy scattering      224 228 236 237
Carrier scattering, elastic      68 239
Carrier scattering, electron-electron      224
Carrier scattering, electron-hole      254
Carrier scattering, impurity      68 174 224 228 235 237
Carrier scattering, inelastic      239
Carrier scattering, intervalley      129 224
Carrier scattering, nonpolar optical      118 126 233 237
Carrier scattering, piezoelectric      68 224
Carrier scattering, polar optical      12 174 224 228 233 236 237
Carrier scattering, space-charge      230
Carter, P.L.      190
Casey, H.C., Jr.      190 256 257
Caspers, H.H.      109 190
Cauchy ratio      25
Cauchy ratios $(C_{a})$       23
Cavenett, B.C.      260 284
Cavicchi, R.E.      98 114
Cerdeira, F.      43 47
Cerrina, F.      110
Cerva, H.      283
Chaldyshev, V.A.      109
Chalyi, V.P.      262
Chamberlain, J.M.      112 256
Champlin, K.S.      73
Chan, K.T.      15
Chandra, P.      189
Chandrasekhar, M.      47 120—121 132 220 285
Chang, C.Y.      190
Chang, K.H.      283
Chang, L.L.      47
Chang, M.-C.F.      286
Chang, T.Y.      270—271 282 286
Chang, W.S.C      115 222
Chang, Y.-C.      45 192 284
Charasse, M.N.      114 283 284
Chattopadhyay, D.      230 255 257 259
Chelikowsky, J.R.      78 110
Chemla, D.S.      222
Chen, A.-B.      15 85 110 111 259
Chen, M.F.      46
Chen, R.      190
Chen, X.      115
Chen, Y.      155 188 284
Chen, Y.-K.      114
Chen, Y.-S.      189
Chen, Z.G.      115 273 283
Cheng, K.Y.      110 190
Cherng, Y.T.      46 73
Chetty, N.      44
Chevallier, J.      46
Chevrier, J.      117
Chew, N.G.      98 114
Chi, X.Y.      281
Chicotka, R.J.      46 190
Chika, S.      47
Childs, G.N.      191
Chin, A.      46
Chin, A.K.      44 270—271 281 282
Chin, B.H.      281
Chin, R.      113
Chiu, L.C.      259
Chiu, T.H.      257
Chizhikov, V.I.      110
Cho, A.Y.      99 110 114—116
Choudhury, A.N.M.M.      110
Chow, R.      111
Chraplyvy, A.R.      222
Christensen, N.E.      92 110 112 116 120—121 125 128 131 132
Christie, W.H.      192
Christman, S.B.      110
Chu, S.N.G.      44 98 114 115 270—271 280 282—284
Chu, W.K.      283
Chupakhina, V.M.      109
Chyi, J.-I.      256
Cingolani, A.      221
Clarke, D.P.      189
Clarke, R.C      77 155 188 270—271
Clausius — Mosotti relation      65 290
Clawson, A.R.      190
Claxton, P.A.      284 286
Cleavage property, microcleavage      10
Cleavage property, principal cleavage      8—11
Cockayne, B.      270—271 282
Coderre, W.M.      111
Cohen, M.L.      77 78 110
Cohen, R.M.      272 281
Coherent interface      263 267 272
Coldren, L.A.      189 221
Coleman, J.J.      45 115 273 283
Collins, T.C      117 155 188
Colombet, M.      191
Compressibilities $(C_{o})$       23
Compressibility      25
Conrad, R.W.      256
Constant, E.      259
Continenza, A.      117
Conwell, E.M.      133 258
Cook, L.W.      260 262 281
Coon, D.D.      286
Corbett, J.W.      78
Cornish, A.J.      62
Costa, J.      258 259
Costato, M.      257
covalent bond      8
Cox, H.M.      15
Craford, M.G.      255
Critical layer thickness, $In_{1-x}Ga_{x}As/GaAs(Al_{x}Ga_{1-x}As)$       272 273
Critical layer thickness, $In_{1-x}Ga_{x}As/In_{1-x}Ga_{x}As$       273
Critical layer thickness, $In_{1-x}Ga_{x}As_{y}P_{1-y}/InP$       273
Critical layer thickness, energy-balance model      272 277
Critical layer thickness, mechanical equilibrium model      272 277
Critical layer thicknesses $(h_{c})$ , for $In_{1-x}Ga_{x}As/GaAs$       273
Critical point, electronic states      145—154 183
Critical point, phonon states      32
Cronin, G.R.      255 256
Crowell, C.R.      73
Crystal densities (g)      11
Crystal density      11
Cui, L.J.      280
Cullis, A.G.      98 114
Cunningham, J.E.      257
Curvature radius      264—266
Czubatyj, W.      261
D'Andrea, A.      188
D'Arcy, P.J.      284
Dacol, F.H.      286
Dahl, D.A.      284 285
Damped harmonic oscillator (DHO)      150—152 162 163
Damping (lifetime-broadening) effects      149 153 174 180
Dandrea, R.G.      16
Dapkus, P.D.      115
Darken, L.S., Jr.      192
Das Sarma, S.      128 133
Das, K.      47
Das, U.      286
Datars, W.R.      35 45
Datta, S.      261
Davey, S.T.      284
David, J.P.R.      284
Davidovich, M.A.M.      16

Davies, J.I.      114
Davies, P.      256
Dawson, L.R.      256 273 283 285 286
de Alvarez, C.V.      77
de Cremoux, B.      113
de Lyon, T.J.      117
de Pascale, T.M.      117
Dean, P.J.      45 73 77 155 188
Debbar, N.      115 285
Debye temperature      48—51
Debye temperature, calorimetric      50
Debye temperature, Debye model      50
Debye temperature, elastic      50 51
Debye temperature, LO phonon      71
Debye temperatures $(\theta_{D})$       49
Defect etchant, $In_{1-x}Ga_{x}As_{y}P_{1-y}/InP$       271
Defect etchant, InP      269—271
Deformation potentials, conduction band      126—131
Deformation potentials, effective acoustic $(\Xi_{eff})$       124
Deformation potentials, for conduction bands $(E_{1})$       128
Deformation potentials, for valence bands (a,b,d)      120—121
Deformation potentials, hydrostatic component (a)      118—124
Deformation potentials, intervalley (acoustic) $(E_{1},C_{1})$       126—129 224—226
Deformation potentials, intervalley deformation potential constants $(D_{ij})$       130
Deformation potentials, optical-phonon deformation potential $(d_{o})$       123 124
Deformation potentials, optical-phonon deformation potentials $(d_{0})$       125
Deformation potentials, phenomenological acoustic $(E_{ac})$       124 125 234
Deformation potentials, phenomenological optical $(E_{npo})$       234
Deformation potentials, shear components (b,d)      118—124 195 275
Deformation potentials, valence-band      118—126
Degani, J.      262
del Alamo, J.A.      191
del Castillo-Mussot, M.      188
Delerue, C.      113
Demay, Y.      189
Demidenko, A.F.      60
Deneffe, K.      286
Density of states, electronic states      76—78 86 248
Density of states, joint (combined)      146 183
Density of states, phonon states      32 33
Deppe, D.G.      113
Deus, P.      61
Devine, R.L.S.      115
Devreese, J.T.      72 74
DeWinter, J.C.      109 111 256 280
Di Paola, A.      190
DiDomenico, M., Jr.      128 132 133 187 220 221 257
Dielectric constant, high-frequency      63—66 137 290
Dielectric constant, optical      143—165
Dielectric constant, static      63—66 137 156 290
Dielectric constants, high-frequency $(\epsilon_{\infty})$       66
Dielectric constants, static $(\epsilon_{s})$       66
Dielectric function, classic dispersion theory      180
Dielectric function, imaginary part      135 136 143—165
Dielectric function, model      143—160
Dielectric function, real part      135 136 143—165
Dielectric function, standard analytic lineshape      161
Dielectric permittivity      137 142
Dietze, W.T      260
DiForte-Poisson, M.A.      112
DiGiuseppe, M.A.      281
Diller, J.      62
Dimmock, J.O.      191 255
Dinges, H.W.      189
Dingle, R.      280
Dislocation etchants, for $In_{1-x}Ga_{x}As_{y}P_{1-y}$       272
Dislocation etchants, for InP      270—271
Ditzenberger, J.A.      257
Dixon, R.W.      62 220
Dmowski, L.      116 117
Dobrovolskis, Z.      255 259
Dobson, P.S.      15
Dodson, B.W.      283
Dolling, G.      45
Donnelly, J.F.      221
Dore, M.      116
Dow, J.D.      45
Doyle, B.L.      286
Drevillon, B.      189
Drickamer, H.G.      15
Dries, L.J.      284
Drift mobility      240
Drift velocity, electrons      239—246
Drift velocity, holes      246—248
Drift velocity, minority carriers      252—254
Drigo, A.V.      283
Driscoll, C.M.H.      15
Drude — Lorentz formula      152
Drummond, T.J.      128 133 283 285 286
Ducroquet, F.      191
Dugaan, G.      284
Dumke, W.P.      113 190 261
Dunlavy, D.J.      261
Dunlop, G.L.      283
Dunstan, D.J.      44 117
Dutta, G.M.      128 133 255
Dvoryankin, V.F.      256
Eastman, L.F.      99 114 230 257 286
Eaves, L.      113
Ebner, J.T.      190
Eby, R.E.      192
Effective masses, conductivity masses $(m_{c}^{h})$       92
Effective masses, density-of-states masses $(m_{d}^{h})$       92
Effective masses, of electrons $(m_{e}^{\Gamma})$       92
Effective masses, of heavy holes $(m_{hh})$       92
Effective masses, of light holes $(m_{1h})$       92
Effective masses, of spin-orbit-splitoff-band holes $(m_{so})$       92
Ehrenreich, H.      132
Eichen, E.      262
Eisele, F.L.      190
Eisele, H.      189
Ekpenuma, S.N.      110
El-Sabbahy, A.      260
Elastic constants, nonlinearity parameter      29
Elastic constants, pressure derivations of      23
Elastic constants, second-order compliance      20—24
Elastic constants, second-order compliance constants $(S_{ij})$       23
Elastic constants, second-order stiffness      20—24
Elastic constants, second-order stiffness constants $(C_{ij})$       23
Elastic constants, spherically averaged      124
Elastic constants, third-order stiffness      22—24
Elastic constants, third-order stiffness constants $(C_{ijk})$       23
Elastic strain (stress)      263—267
Elcess, K.      280
Electroabsorption      219
Electromechanical coupling constant      70
Electromechanical coupling constants $(K^{2})$       70
Electron effective mass, $\Gamma$ -band electrons      86—91 156 157 226 290
Electron effective mass, conductivity mass      86—91
Electron effective mass, cyclotron mass      88
Electron effective mass, density-of-states mass      86—91
Electron effective mass, internal-strain (biaxial-strain) effect      277 278
Electron effective mass, polaron mass      89
Electron effective mass, pressure variation      107 108
Electron effective mass, satellite valley      226
Electron effective mass, temperature variation      104 105
Electron effective mass, two-dimensional electron gas      109
Electrooptic constant, clamped value      203
Electrooptic constant, free value      203
Electrooptic constant, linear (Pockels)      202—211 216
Electrooptic constant, quadratic (Kerr)      211—218
Electrorefraction      219
Elliott, C.R.      270—271
Elliott, R.J.      188
Ellis, D.E.      73
Emanuel, M.A.      45
Emel'yanenko, O.V.      256
Emura, S.      282
energy gaps      75—86 143—174 182—186
Energy gaps, $E_{0}$ and $E_{0}+A_{0}$ gaps      79—81

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