|
|
 |
| Авторизация |
|
|
|
| Поиск по указателям |
|
|
|
|
|
|
|
 |
|
|
|
| Billington D.S., Crawford J.H. — Radiation Damage in Solids |
|
|
|
| Предметный указатель |
Dyer, H.B. 241—244 246 248
Easy glide 145
Eggen, D.T. 25
Eggleston, R.R. 110 112 177 181
Ehrmann, M.L. 241
Eisen, F.H. 25 319
Elastic constants, aluminum 102
Elastic constants, copper 102
Elastic constants, dislocation pinning 71
Elastic constants, sodium 102
Elastic constants, theory 102
Eldred, V.W. 380
Electron accelerators, beam currents 88
Electron accelerators, gamma rays 86
Electron accelerators, ionization 86
Electron accelerators, range 88
Electron accelerators, temperature measurement 88
Electron bombardment,  180
Electron bombardment, annealing 116
Electron bombardment, copper 105 116 129 142
Electron bombardment, copper-zme 202 205
Electron bombardment, defect, production 21 figures 26 37 47 121
Electron bombardment, determination of displacement energies 24
Electron bombardment, diamond 241 247
Electron bombardment, fused silica 259
Electron bombardment, germanium 38 322 328 340 358
Electron bombardment, germanium at low temperature 365 figures
Electron bombardment, graphite at low temperature 418
Electron bombardment, indium antimonide 336
Electron bombardment, indium arsenide 338
Electron bombardment, iron 2 percent silicon 185—136
Electron bombardment, lithium fluoride 298 302
Electron bombardment, magnesium oxide 280
Electron bombardment, relativistic processes 21 figures
Electron bombardment, silicon 333 343 358 364
Electron bombardment, sodium chloride 1 Mev 280
Electron micrography, gold 121
Electron spin resonance, diamond 239 244 249
Electron spin resonance, germanium 364
Electron spin resonance, graphite 414 417
Electron spin resonance, magnesium oxide 281
Electron spin resonance, silica system 251 253 256 259 263—264
Electron spin resonance, silicon 364
Electron transmission microscopy, dislocation loops 73
Electron traps see also “Minority-earner traps”
Electron traps, defects in graphite 400
Elhot, J, W. 17
Elliott, R.J. 244—245 248
Elongation, uniform 137
Embrittlement, uranium 372 378
Enderby, J.A. 380
Energy loss of fast particles, Coulombic interactions 19 figures 29 45
Energy loss of fast particles, elastic collisions 13 figures
Energy loss of fast particles, hard-sphere collisions 17 figures 45
Energy loss of fast particles, ionization 20 31 37
Energy loss of fast particles, relativistic range 21 if
Energy loss of fast particles, screened collisions 19—20 29 45
Energy loss of gamma rays 26 if.
Energy of formation of defects, 64
Energy of formation of defects, alkali halides 63
Energy of formation of defects, cation-anion vacancy pairs 63
Energy of formation of defects, copper 64
Energy of formation of defects, gold 64
Energy of formation of defects, interstitials 63
Energy of formation of defects, nickel 64
Energy of formation of defects, vacancies 64
Energy of motion of defects, 64
Energy of motion of defects, copper 64
Energy of motion of defects, divacaney 64
Energy of motion of defects, gold 64
Energy of motion of defects, interstitial 64
Energy of motion of defects, nickel 64
Energy of motion of defects, vacancies 64
energy release 71
Ershler, B.V. 380
Eshelby, J.D. 101 210 285
Estermann, I. 285 287
Etch pits, dislocations 70 72
Etzel, H.W. 63
Evans, R.D. 28
Evaporation techniques, low temperatures 65
Experimental faoilities and radiation, damage studies 84—85.
Fahlenbrach, H. 187
Fairbairn, H.W. 7
Fan, K.Y. 319 327—328 330 333 314 350 358 364
Fast neutron bombardment, defects produced 13 figures 36—37
Fatigue strength, austenitic stamless steel 165
Fatigue strength, ferritic stainless steel 165
Fatigue strength, low carbon steel 165
Fatigue strength, vacancies 166
Feder, R. 207
Feldman, M.J. 390
Fermi level in.semiconductors 336
Fermi — Dirac distribution function 315
Feshbach, H. 22 28
Fillmore, F.L. 86
Fillnow, R.H. 162 181
Fischell, R.E. 184—186
Fiske, M.D. 116 120
Fission fragments, damage rate 93
Fission fragments, displacements 95
Fission fragments, potassium chloride 303
Fission fragments, range 12 93
Fission fragments, range in uranium oxide 390
Fission fragments, stopping power 94
Fission fragments, thermal fission 93
Fission fragments, track in uranium oxide film 44
Fission fragments, uranium 369
Fission fragments, uranium-molybdenum 369
Fission fragments, uranium-niobium 369
Fission guses 382 figures
Fission guses, bubble formation 383
Fission guses, diffusion 382
Fission guses, krypton 382
Fission guses, xenon 3S2
Fission spikes see “Spikes” “Fission”
Fission, deuterons 95
Fleeman, J. 199—201
Fletcher, J.F. 399 400 402 407—412
Fletcher, R.C. 48 352 357
Flux measurements, damaging flux 82
Flux measurements, flux spectrum 82
Flux measurements, indirect techniques 83—84
Flux measurements, nuclear resonance reactions 82
Flux measurements, property change 84
Focusing collisions 9 37 50 128 146—149
Foote, F. 371
Foreman, A.J.E, 380
Formic acid, decomposition 212
Forster, J.H. 327 344 350
Forsyth, P.J.E. 166
Foster, E.L. 305—306
Frank — Read mechanism, dislocation generation 69—70
Frank.F.C. 69 73
Frenkel pair, stored energy 57
Friedel, J. 149
Fuchs, L.H 218—222
Fucs, E. 39 60
Fugita, F. 223
Fumi, F.G. 64
Fused silica see “Silica system”
Gale, A. 259
Gallium antimonide, n-type, effect of irradiation 314
Gallium antimonide, p-type, effect of irradiation 314
Gamma rays, attenuation 80
Gamma rays, calibration 91
Gamma-ray bombardment, 280
Gamma-ray bombardment, aluminium oxide 213 281 305
Gamma-ray bombardment, copper 123
Gamma-ray bombardment, damage rate 91
| Gamma-ray bombardment, defects 26 figures 37 47
Gamma-ray bombardment, diamond 241
Gamma-ray bombardment, displacement cross sections 27 figures
Gamma-ray bombardment, energy loss mechanisms 26 figures
Gamma-ray bombardment, fused silica 258 figures
Gamma-ray bombardment, germanium 262 328 340 345 352 358
Gamma-ray bombardment, indium antimcnide 337
Gamma-ray bombardment, lithium fluoride 300 306
Gamma-ray bombardment, oxidation of graphite 420 422
Gamma-ray bombardment, potassium chloride 270 273—276 280 308
Gamma-ray bombardment, quartz 256 figures
Gamma-ray bombardment, radioactivity 76
Gamma-ray bombardment, silica 213
Gamma-ray bombardment, silicon 333
Gamma-ray bombardment, sodium azide 283
Gamma-ray bombardment, sodium chloride 270
Gamma-ray heating, creep 165
Gance, M. 291—293
Germanium, composite defects 345
Germanium, conductivity 324 327 350
Germanium, damage rate 35
Germanium, dangling bonds 217
Germanium, density change 222—223
Germanium, disordered regions in neutron-bombarded 35 48 346
Germanium, displacement energies 25
Germanium, displacement probability 38
Germanium, effects of dislocations 358
Germanium, effects of low temperature irradiation 350 figures
Germanium, efficiency of defect production by gamma rays 328
Germanium, electrical resistivity 223
Germanium, Fermi level and damage rate 35
Germanium, gold-doped 321
Germanium, Hall coefficient 326
Germanium, impurity banding 360
Germanium, interactions between defects 323 328 331 358
Germanium, ionization energies of defects 325 327—328 330—331 340
Germanium, lattice expansion 222—223
Germanium, lattice parameter 222—223
Germanium, length change 223
Germanium, levels of defects 320 figures 323
Germanium, limiting hole concentration 323 325
Germanium, limiting position of Fermi level 325 327
Germanium, magnetic susceptibility 360 figures
Germanium, minority-carrier lifetime 340 figures
Germanium, minority-carrier trapping 350 figures
Germanium, mobility 344 figures
Germanium, n-type, effect of irradiation 314
Germanium, p-type, effect of irradiation 314
Germanium, rate of carrier removal, 324 327
Germanium, small angle X-ray scattering 223
Germanium, temperature dependence of mobility 347
Germanium, thermal relaxation of defects 350 figures
Germanium, X-ray patterns 222
Giauque, W.F. 105—106
Gibson, J.B. 208
Gigon, J. 226 236 238 291—293
Gilbert, E.C. 407 421
Gilman, J.J. 294 296—301
Glasgow, L.E. 86
Glass see also “Borosihcate glass”
Glass, density change in plate 237
Glass, electron spin resonance 259
Glass, hardness change m plate 238
Glass, optical absorption 259
Glass, soda-lime, bombardment with argon ions 47
Glass, thermal conductivity of plate 237
Glass, Young’s modulus in plate 238
Gobeh, G.W. 345 352 354—357
Goland, A.N. 282
Gold, deuteron bombardment 111
Gold, energy of vacancy formation 64
Gold, energy of vacancy motion 64
Gold, neutron bombardment 124
Gold, range cf recoils from  reactions 48
Gold, residual resistivity 104
Gold, resistivity 111 115
Gold, thermal recovery 111
Gold, transmission electron micrography 124
GoMschrcudt, V.M. 234 268
Gonser, U. 822—823
Gordon, D.I. 184—187
Gordon, R.B. 297
Gossick, B.R. 346
Gottfried, D. 8 228
Grain boundaries, large angle 73
Grain boundaries, small angle 73
Grain growth, copper 123
Grain growth, neutron bombardment 123
Grain size, low carbon steels 155
Graphite,  molecules 409 414
Graphite, anisotropy 395—396
Graphite, annealing of defects 403 412
Graphite, band strubture 397
Graphite, c-spacing 405 figures 416
Graphite, charge carrier concentrations 398
Graphite, chemical reactivity 415 420
Graphite, clusters of defects 413 419
Graphite, crystal structure 396
Graphite, defect clusters in neutron-irradiated 396
Graphite, diffusion of defects 415
Graphite, displacement energies 25
Graphite, distortion of lattice, effective mass 397 402—3
Graphite, electron spin resonance 414 417
Graphite, electron trapping by defects 400 figures 416 419
Graphite, Hall coefficient 398
Graphite, lattice expansion 405 figures 416
Graphite, linear expansion 395 406
Graphite, magnetic susceptibility 401 figures 419
Graphite, magnetoresistance 399 figures 420
Graphite, mechanical strength 393
Graphite, mobility of carriers 398 400 419
Graphite, neutron scattering 104
Graphite, position of Fermi level 400 figures 422
Graphite, reactor grade, manufacture 394
Graphite, residue, compounds, bromine graphite 419
Graphite, residue, compounds, ease of formation 422
Graphite, residue, compounds, electronic effects 419—420
Graphite, residue, compounds, graphite-bisulfate 419
Graphite, resistivity 115 396 409 411 416 418 420
Graphite, reverse annealing 418
Graphite, scattering, long-wavelength neutrons by defects 414
Graphite, similarity, irradiated to lamp black 408
Graphite, small angle X-ray scattering 409
Graphite, stored energy 395
Graphite, thermal conductivity 395—396 409 416
Graphite, thermal expansion 396
Graphite, thermoelectric power 399 figures
Graphite, Young’s modulus 396
Gray, D.L. 102
Green, A. 180
Greenwood, G.W. 382
Griffiths, J.H.E. 244 250 253 256
Griffiths, V. 164
Grossman, N. 371
Growth, uranium 369 372 374 379—380
GUck, H.L. 177—178
Gueron, J. 257
Gumier, A. 294
Gushing, R.L. 178
Hall coefficient and carrier concentration 317
Hall coefficient, diamond 240
Hall coefficient, germanium 326 328 330 346 338
Hall coefficient, graphite 398 figures 420
Hall coefficient, indium antimomde 335
Hall coefficient, silicon 331
Hall, D. 94
Hall, E.O. 185 187
Halteman, E, K. 181
Ham, R.K. 64
Hamberg, A. 7
|
|
|
| Реклама |
|
|
|
|
|
|
|
|
О проекте