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| Billington D.S., Crawford J.H. — Radiation Damage in Solids |
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| Предметный указатель |
Hamilton, J.G. 241
Hamister, V.C. 395
Hancock, N.H. 102 130—131 161—162
Hanstock, R.F. 168
Hardness,  181
Hardness, alkali halides 297—298
Hardness, alpha-particle bombardment 132
Hardness, aluminum 131—132
Hardness, copper alleys 132
Hardness, copper-beryllium 189
Hardness, deuteron bombardment 132
Hardness, diamond 224
Hardness, electron bombardment 132
Hardness, eopper 132 162
Hardness, Hastelloy-X 130
Hardness, Inconel-702 136
Hardness, Inconel-X, double-aged 136
Hardness, Inconel-X, single-aged 136
Hardness, iron 163
Hardness, iron-armco 132
Hardness, K-morel 136
Hardness, lead 131
Hardness, magnesium 131
Hardness, mica 238
Hardness, molybdenum 162
Hardness, neutron bombardment 132
Hardness, nickel 132 162
Hardness, plate glass 238
Hardness, quartz 238
Hardness, stainless steel 132 162
Hardness, titanium 162
Hardness, zirconium 162
Harries, D.R. 142 156
Harris, E.G 40
Harrison, W.A. 33
Harte, W.E. 273
Hastelloy-X, hardness 136
Hastelloy-X, tensile properties 136
Haven, Y. 63
Haynes, J.R. 350
Heat of combustion, graphite 411
Heavy-charged particle accelerators, beam current 85
Heavy-charged particle accelerators, neutrons from 87
Heavy-charged particle accelerators, radiation hazards 86
Heavy-charged particle accelerators, temperature measurement 86
Heavy-charged particles, damage rate 87
Heavy-charged particles, range 86 89
Henderson, J.W. 110—111
Hennig, G.R. 25 396 398 403 405 414—420
Herring, C. 160 318
Hill, D.E. 332 44
Hilseh, R. 65
Hirsch, H.H, 390—391
Hirsch, P.B. 73 148
Hmes, R.L. 47
Hockenbury, B.W. 109—110 141 143 156 162
Holden, A.K. 102 135 149 373 384
Holland, H.D. 7 228
Holmes, D.K. 28 37 45 47 50 82 105 115 121 126—129 131 140 149 297
Hombeck, J.A. 350
Home, K.W. 73
Honeycombe, R.W.K. 371
Hove, J.E. 25 398 403 405 414—418
Howe, J.P. 391
Huang, K. 101
Hueschen, R.E. 376 378
Hunt, C.D’a. 86
Hunter, S.C. 71
Huntington, H.B. 58 59 64 101
Hurley, P.M. 7
Hurst, R.P. 378
Hurwitz, H. 36 38
Impact strength, deuteron bombardment 152
Impact strength, low-carbon steels 155
Impact strength, mild steel 152
Inconel, creep 161—162
Inconel-702, hardness 136
Inconel-702, tensile properties 136
Inconel-X (double-aged), hardness 136
Inconel-X (double-aged), tensile properties 136
Inconel-X (single-aged), hardness 136
Inconel-X (single-aged), tensile properties 136
Indium antimonide, conductivity 335 337
Indium antimonide, displacement energies 25
Indium antimonide, electron bombardment at low temperature 314 336—337
Indium antimonide, Hall coefficient 335
Indium antimonide, limiting position of Fermi level 335
Indium antimonide, minority carried traps 337
Indium antimonide, n-type, effect of irradiation 314
Indium antimonide, p-type, effect of irradiation 314
Indium antimonide, thermal relaxation of defect structure 336—337
Indium arsenide, limiting position of Fermi level 338
Indium arsenide, n-type, effect of irradiation 314
Indium arsenide, p-trype, effect of irradiation 314
Indium arsenide, thermal relaxation of defects 338
Indium phosphide, effect of irradiation 314
Ingham, H. 110 273
Inhomogeneous defect distribution, deuteron bombaidment 20 48
Inhomogeneous defect distribution, effect on physical properties 49
Inhomogeneous defect distribution, germanium 35 49 346
Inhomogeneous defect distribution, neutron bombardment 25 37 40 50 346
Interaction potential between colliding particles 19 20.29 45
Internal friction, alkali halides 297
Internal friction, copper 126
Internal friction, dislocation pinning 297
Internal friction, neutron bombardment 126
Internal friction, Young’s modulus 126
Interstitialcy mechanism 58 128 146—149 217
Ionic conductivity, alkali halides 270 figures
Ionic conductivity, extrinsic 61
Ionic conductivity, interstitial 61
Ionic conductivity, intrinsic 61
Ionic conductivity, potassium chloride 270 272
Ionic conductivity, sodium chloride 279
Ionic conductivity, thermal relaxation, in alkali halides 273 figures
Ionic conductivity, vacancy 61
Ionization effects, alkali halides 270 figures
Ionization effects, silica system 249
Ionization losses 20 31 36 37 79 270
Ionization threshold 31
Iron oxide, dissolution 212
Iron, activation energy for annealings 145
Iron, deuteron bombardment 112—113
Iron, displacement energies 25
Iron, hardness 162
Iron, range of recoils from  reactions 48
Iron, resistivity 109 112—113 115
Iron, temperature of irradiation 141
Iron, yield strength 141
Iron-25 per cent nickel, M temperature 187
Iron-25 per cent nickel, resistivity 187
Iron-armco, hardness 132
Irradiation techniques 95 96
Jahoda, F.C. 303—304
James, H.M. 246 320—322 324 327 345 361
James, Lark-Horovitz model defect energy levels 320 figures 328 345 361
Jamison, R.E. 98 123 191
Jeppson, M.B. 97—101
Johansson.G.H. 174
Johnson, R.D. 172
Johnson, W.E. 162 177 312
Johnston, W, G. 294 296—301
Joly, J. 7
Jones, E.R.W. 161—162
Jones, F.W. 175
Jones, L.J. 196 385—386
Jongenberger, P. 104
Judge, C. 156
K-monel, hardness. 136
K-monel, tensile properties 136
| Karnmerer, O.F. 200
Katz, A. 249 259
Katz, E. 63
Kearsley, M.J. 243 247—248 320
Keating, D.T. 205 291 293 416
Keiman, L.R. 371 375
Kelly, W.S. 133 376 378
Keltmg, H. 62 63
Kemper, R.S. 133 376 378
Kernohan, R.H. 85 185 192 197 202—203 205 207—211 303—304
Kierstad, H.A. 101
Kikom, A.I. 103
Kinchin, G.H. 33 39—41 95 103 107 109 112 146 177 181 184 282 396 403—406 413—414
Kinetics of defect annealing 48
Kinetics of defect annealing, semiconductors above room temperature 357
Kittel, J.H. 161—162 372
Klabunde, C.E. 115 317 121 158
Klein, C.A. 333
Kleitman, D. 222
Klemena, P.G. 71 225 227 229 231
Klonts, E.E. 25 35 88 112 318—319 345 354—357
Kobayashi.K. 276—280 287—288 309
Koch, E. 62
Koehler, J.S. 20 22 24 31 42 43 46 71 86 108 112—113 119—121 127 290—291 293 296 354
Kohn, H.W. 212 318 319
Konobeevsky, S.T. 128 374 376 378 380 385—386
Kortright, J. 319
Kosiba, W. 420—421
Kroger, F.A. 62
Krumhansl, J.A. 360
Kuns, F.W. 102 135 149 373
Kurs, A. 415
Kutaitsev, V.L. 374 376
Lambert, M. 294
Lark-Horovitz, K. 12 25 35 246 312—313 318—322 324 327—328 330 333 344—345 358 361
Last, J.T. 321
Lattice defects see “Defects”
Lattice expansion, alkali halides 286 290
Lattice expansion, barium titanate 235
Lattice expansion, beryl 234
Lattice expansion, chrysoberyl 234
Lattice expansion, coesite 233
Lattice expansion, diamond 218 figures
Lattice expansion, gallium 222
Lattice expansion, garnet 234
Lattice expansion, germanium 222—223
Lattice expansion, graphite 405figures 416
Lattice expansion, indium antimonide 222
Lattice expansion, lithium fluoride 290 figures
Lattice expansion, phenacite 234
Lattice expansion, quartz 227 figures
Lattice expansion, silicon 222
Lattice expansion, silicon carbide 222
Lattice expansion, theory, in lithium fluoride 280
Lattice expansion, topaz 234
Lattice expansion, zircon 228 234
Lattice expansion, zirconia 234
Lattice imperfections see “Defects”
Lattice parameter see also “Lattice expansion”
Lattice parameter, annealing 119—120
Lattice parameter, copper 101 119—120
Lattice parameter, copper-zinc 207
Lattice parameter, theory 101
Laubenstein, M.J. 25
Le Claire, A, D. 206—207 382—383
Lead, hardness 131
Lead, resistivity 115
Leeser, D.Q. 154 165—166 197
Lehmann, C. 38 39
Leibfried, G. 34 38—40 45 47 51 52
Leivo, W.J. 285 287 297
Length change, alkali halides 285
Length change, copper 101
Length change, germanium 223
Length change, lithium fluoride 290 figures
Levitsky, B.M. 379—380
Levy, M. 214
Levy, P.W. 220 265 281—283 305
Lewis, A.B. 185 192 202
Li, C.Y. 202 211
Likhter, A.I. 103
Lillie, B.W. 94 380
Lin, L.-Y. 285
Lind, S.C 92 239
Lind©, J.O. 174
Line broadening, neutron bombardment 125
Linear expansion, graphite 395
Lintner, K. 181—182
Lithium bromide, energy of fermatioin of cation anion vacancy pairs 63
Lithium chloride, energy of formation of cation-anion vacancy pairs 63
Lithium fluoride, density changes 200 figures
Lithium fluoride, dislocation loops 296 303
Lithium fluoride, dislocation motion 297—298
Lithium fluoride, effect of  reaction 13
Lithium fluoride, energy of formation of cation-anion vacancy pairs 63
Lithium fluoride, etch behavioz 302
Lithium fluoride, hardness change 298
Lithium fluoride, metallic lithium 294
Lithium fluoride, molecular fluorine in irradiated 294
Lithium fluoride, small-angle X-ray scattering 293 302
Lithium fluoride, spikes from reaction 301
Lithium fluoride, structural changes 290 figures
Lithium fluoride, thermal conductivity 300
Lithium fluoride, thermal recovery of density change 292 figures
Lithium fluoride, voids in irradiated 293 296
Lithium fluoride, yield stress 293
Littleton, M.J. 284 292
Loferski, J.J. 25 319 340 385
Lomer, W.M. 69 122 172—173 207
Longo, T.A. 331—334 345
Low, J.R. 152 197—198 386
Low-carbon iron alloys, brittle fracture 150
Low-carbon steels, fatigue strength 505
Low-carbon steels, impact strength 155
Low-carbon steels, tensile properties 155
Low-carbon steels, transition temperature 155
Lukesh, J.S. 224
Luminescence, diamond 239—240 244—245 248
Lundsten, R.H. 187
Lustman, B. 190 385—386
MacDonald, D.K.C 98
MacKay, J.W. 39 319 344
Maddm, R. 148
Magnesium oxide, electron spin resonance 281
Magnesium oxide, F'-eenters 281
Magnesium oxide, impurity bands 280
Magnesium oxide, optical absorption 281
Magnesium, compressibility 103
Magnesium, hardness 131
Magnesium, internal friction 128
Magnesium, resistivity 115
Magnetic metals and alloys, hysteresis loop 184 figures
Magnetic metals and alloys, iron-nickel 50:50 185 figures 187
Magnetic metals and alloys, molybdenum permalloy 74—79 184
Magnetic metals and alloys, mu-metal 184 figures
Magnetic metals and alloys, permeability 184 figures
Magnetic metals and alloys, supermalloy 184 figures
Magnetic susceptibility, graphite 401 figures 419 422
Magnetic susceptibility, semiconductors 360 figures
Magnetic susceptibility, silica system 251 264
Magnetoresistance, graphite 399 figures 420
Magnusson, G.D. 120—121
Makin, M.J. 92 135—137 140 142 148 156.161—162
Maksunova, O.P. 197—198
Mapother, D.E. 275
Martensitic transformation, nickel-iron alloys 197—198
Martensitic transformation, resistivity 197—198
Martin, A.B. 108 110 172 177
Marx, J.W. 108 110—113 119
Mather, R.L. 161
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