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| Авторизация |
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| Billington D.S., Crawford J.H. — Radiation Damage in Solids |
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| Предметный указатель |
Optical absorption, aluminum oxide 281
Optical absorption, chemical decomposition 283
Optical absorption, color centers, alkali halides 268—269 274 309
Optical absorption, diamond 239 figures
Optical absorption, germanium 338
Optical absorption, impurity bands, magnesium oxide 283
Optical absorption, magnesium oxide 280
Optical absorption, silica system 230 figures
Optical absorption, silicon 333
Optical bleaching, absorption bands, silica system 257 262—264
Optical bleaching, color centers, magnesium oxide 281
Optical bleaching, F-eenters, sodium chloride 274 276
Order-disorder alloys 174 figures
Order-disorder alloys, CuAu,  , CuP, CuPt,  , PtCo 174
Order-disorder alloys, properly changes 174
Ordering, 176
Orowan, E. 65
Oscillator strength of neutron-induced band, aluminum oxide 282
Oscillator strength of neutron-induced band, fused silica 264
Ousters, J.P.H. 239
Overhauser, A.W. 104 106—107 112
Owen, J. 244 250 253 258
Ozeroff, J.D. 31 95
O’Brien, M.C.M. 245—246 253
O’Keefe, J.G. 294
Paige, E.G.S. 231 233 250 256—258 262—265
Paine, S.H. 145 372 378
Pair production 26 figures
Palmer, W. 120—121
Paneth, H. 58
Pantaleev, L.D. 380
Pearlstein, E.A. 110 273 276
Pearson, G.L, 20
Pease, R.S. 33 39—41 95 146 177 181 184 282 293
Pepper, J.H. 86
Perio, P. 291—293
Pfeil, P.C.L. 385
Phase transformations, tin 199—200 234—235l
Phillips, P. 159
Phosphor bronze, Young’s modulus 102
Photoconductivity, diamond 239—240 247
Photoconductivity, germanium 328 350
Photoconductivity, silicon 350
photoelectric effect 20 figures
Pigg, J.C. 12 325—326 332 347—349 351
Plait, O.S. 380
Platinum, annealing 121
Platinum, resistivity 115 121
Pleasonton, F. 269
Pleochroic halos in mica 7
Point defects 57 figures (see also “Defects”)
Pokrovsky, J.I. 128
Polanyi, M. 65
Porter, L.F. 187 198
Potassium chloride, color centers 280
Potassium chloride, density changes, proton bombarded 286
Potassium chloride, density changes.X-rayed 285
Potassium chloride, energy of formation of cation-amon vacancy pairs 63
Potassium chloride, hardness changes, X-rayed 297 300
Potassium chloride, ionic conductivity, irradnated 273 figures
Potassium chloride, optical absorption 280
Potassium chloride, thermal conductivity 306—307
Pough, F.H. 241
Pratt, D.L. 297
Pravdyuk, N.F. 128 230 132 140 374 376 880
Precipitation hardening 187 figures
Pricaman, S. 371
Primak, W. 218—222 225 227 231 248
Primary collisions 13 figures
Primary recoils 13 figures 29
Primary recoils, energy 14 figures
Pringsheim, P. 241 280
Proton bombardment, copper 212
Proton bombardment, copper-iron 194
Proton bombardment, defects produced 36
Proton bombardment, formic acid 212
Proton bombardment, graphite 416
Proton bombardment, iron oxide 212
Proton bombardment, nickel 212
Proton bombardment, nickel oxide 212
Proton bombardment, nuclear reactions 26
Proton bombardment, potassium chloride 400 Mev 273—274 286 288
Proton bombardment, sodium chloride 400 Mev 273 275—276 280 286 288
Proton bombardment, tungsten 110 212
Pryce, M.H.L. 245—246 253
Przibram, K. 239
Pugh, E.W. 211
Putnam, T.M. 241
Quartz see “Silica system”
Quenching, defect formation 64
Quenching, gold 63
Radiation, annealing, germanium 356
Radiation, annealing, graphite 403
Radiation, effects, semiconductor devices 342 365
Radiation, hardening 146 figures
Radiation, sources 76 figures
Radioactive isotopes as radiation sources, Compton electrons 90
Radioactive isotopes as radiation sources, gamma rays 90
Radioactive tracers, diffusion measurements in graphite 58
Ramdas, A.K. 333
Randolph, B.W. 109
Range of recoils,  reactions, copper 47—48
Range of recoils, reactions, gold 48
Range of recoils, reactions, iron 48
Range of recoils, reactions, molybdenum 48
Range of recoils, reactions, silver 48
Range of recoils, reactions, titanium 48
Range of recoils, reactions, zinc 48
Rappaport, P. 25 319 340 365
Rate of work hardening 137
Read, W.T. 68 69 217 339
Recombination equation, Hall, Shockley, Read 339
Recombination process in semiconductors 339
Recrystallization, neutron bombardment 125
Redman, J.K. 121 147
Remski, G. 358 364
Replacement collisions 37 39 181
Residual resistivity, theoretical estimates 104
resistivity 71
Resistivity, 177—180
Resistivity, , disordered 115
Resistivity, , ordered 115
Resistivity, alpha-brass 115
Resistivity, alpha-particle bombardment 110 112—113
Resistivity, aluminum 110 115 121
Resistivity, anisotropic in graphite 396—398
Resistivity, annealing 116 121
Resistivity, antimony 115
Resistivity, beryllium 115
Resistivity, beta-brass 182
Resistivity, bismuth 115
Resistivity, cobalt 112—113 113
Resistivity, copper 109—113 115—116 121
Resistivity, copper alloys 202 204—205
Resistivity, copper- iron 195
Resistivity, copper-aluminum 204—203 208
Resistivity, copper-beryllium 189
Resistivity, copper-zinc 206—207
Resistivity, CuAu 177
Resistivity, deuteron bombardment 111—113
Resistivity, electron bombardment 116
Resistivity, gold 111—113 115
Resistivity, graphite 115 398 409 411 410 418 420
Resistivity, iron 109 112—113 115
Resistivity, lead 115
Resistivity, magnesium 113
Resistivity, molybdenum 109 116
Resistivity, molybdenum, platinum 121
Resistivity, nickel 109 111—113 115
Resistivity, nickel-manganese 183 figures
| Resistivity, platinum 115
Resistivity, proton bombardment 110
Resistivity, silver 111—113 115 121
Resistivity, stored energy 108
Resistivity, tantalum 311
Resistivity, thermal recovery 111
Resistivity, titanium 109 112—113
Resistivity, tungsten 110 112—113 115
Resistivity, uranium 381
Resistivity, uranium-aluminum 388
Resistivity, vanadium 112—113
Resistivity, zinc 110
Resistivity, zirconium 109 115
Reynolds, M.B. 197—198 378 382—383 386
Rich, S.B. 383
Ring, P.J. 294
Roberts, A.C. 378—380
Roberts, C.C 212
Robinson, M.S 133 136 143
Rochvar, A.A. 371
Roentgen, W.K. 5
Rogers, T, H. 241
Roiling texture, copper 123
Rosenbeig, H.M 166 305—306
Rosenblatt, D B. 110 135 202 205 207
Rosenwasser, H. 283
Roswell, A.E. 64
Rotterbach, E. 7
Rowe, A.H. 382—383
Royal, J. 381
Ruby, S.L. 35 87
Ruptured (partial) covalent bonds 217 244 252
Russell, B.R. 283
Rutherford, E. 5
Ryan, F.M. 211
Rymer, G.T. 382
Sachs.G. 174
Saito, H. 206
Sakaguchi, K. 285 287
Salkowitz, E.I. 185
Sampson, J.B. 38 102
Sansom, H.C. 102
SAPpHiRe see “Aluminum oxide”
Saturation induction, dopper-iron 195
Scattering, charged particles 19
Scattering, charged particles, Rutherford 19 21 29 48
Scattering, charged particles, screened Coulombic 20 29 48
Scattering, cross section, relativistic energy range 21 figures
Scattering, forward, neutrons 17 36
Scattering, long-wavelength neutron, aluminium oxide 104 282
Scattering, long-wavelength neutron, beryllium oxide 104
Scattering, long-wavelength neutron, graphite 104 414
Scattering, long-wavelength neutron, silica 104
Scattering, small-angle X-ray graphite 409
Schamp, H.W. 63
Schindler A.I. 185
Schmitt, R.A. 47 53 89
Schultz-Dubois, E. 364
Schupp, F.D. 35 87
Schwemler, H.C. 219 321 360 362—363
Screened collisions 10 20 29 45
Seeger, A. 37 50 64 68 71 119 122 149
Sehmeling, P. 382—383
Sehmid, E. 93 161—162
Sehoeck, G. 162 164
Seigle, L.L. 373
Seitz, F. 20 22 24 31—33 38 41—44 46 63 64 111 177 184 206 269 275 279 286 290—291 293 296 354
Senio, F. 102 292 294 298 378 387
Sergeev, G.I. 379—380
Sery, R.S. 184—187
Sharp, R.A. 47 53 89
Shear modulus, aluminum 102
Shear modulus, copper 102
Shear modulus, effect of neutron bombardment 102
Sherrill, F.A. 224—228 234—235
Shockley, W. 318 321 339
Shulman, R.G. 350 352
Siegel, B.M. 303—304
Siegel, S. 174.177—178 183—184 188—189
Silica system, aluminum impurity in fused 230
Silica system, defects in silica network 240
Silica system, density change 224 figures 252
Silica system, diffuse X-ray scattering 229
Silica system, electron effects 249 figures
Silica system, electron spin resonance 251 253 256 259 263—264
Silica system, heat capacity 226 233
Silica system, ionization effects 249
Silica system, lattice distortion 228 232
Silica system, lattice expansion 227 figures
Silica system, long wavelength neutron scattering 104
Silica system, magnetic defects 261 figures
Silica system, magnetic susceptibility 231 264
Silica system, networks in fused silica 249
Silica system, optical absorption 256 figures
Silica system, optical bleaching of absorption bands 256—258 261 263
Silica system, oscillator strength for absorption bands 264
Silica system, phonon scattering 225—226 231
Silica system, plastic flow 228
Silica system, recrystallization 220
Silica system, refractive index 231
Silica system, rotatory power 231
Silica system, ruptured covalent bonds 252
Silica system, shift of absorption edge 231 256
Silica system, thermal bleaching of absorption bands 257 262—264
Silica system, velocity of sound 226
Silica system, X-ray patterns 224 figures
Silica system, Young’s modulus’ 226
Silicon, annealing of defects 332
Silicon, composite defects 332 334 343 345
Silicon, conductivity 331
Silicon, displacement energies 23
Silicon, electron spin resonance 364
Silicon, Hail coefficient 331
Silicon, Impurity banding 363
Silicon, ionization energies of defects 331 figures 334 343 363
Silicon, lattice expansion 222
Silicon, level, of defects 320 figures 331
Silicon, limiting position of Fermi level 331
Silicon, magnetic susceptibility 361 868
Silicon, minority-carrier lifetime 343 388
Silicon, mobility 345 figures
Silicon, n-type 314
Silicon, p-type 314
Silicon, rate of carrier removal 331 figures
Silicon, temperature dependence of mobility 347
Silicon, X-ray pattern 222
Silk, E.C.H. 130—131
Silsbee, R.H. 9 37 50 128 146 250—253 255 264
Silver chloride, decoration of dislocations 73
Silver halide, interstitials 62
Silver halide, lead, divalent 62
Silver halide, vacancies 82
Silver, annealing 121
Silver, deuteron bombardment 111
Silver, range of recoils from reactions 48
Silver, residual resistivity 104
Silver, resistivity 111 115 121
Silver, thermal recovery 111
Simmons, R.O. 101 119 122
Simnad, M. 212
Simon, I. 224
Sisman, O. 236
Slip lines 145
Slip lines, copper 123
Slow bend tests 156
Smaliman, R.E. 123 142 148 293
Small-angle X-ray scattering, graphite 409
Small-angle X-ray scattering, lithium fluoride 293 302
Smirnov, L.S. 340
Smith, R.B. 121—122
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