Billington D.S., Crawford J.H. — Radiation Damage in Solids :: Электронная библиотека попечительского совета мехмата МГУ

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Billington D.S., Crawford J.H. — Radiation Damage in Solids

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Название: Radiation Damage in Solids

Авторы: Billington D.S., Crawford J.H.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1961

Количество страниц: 450

Добавлена в каталог: 21.03.2008

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

Предметный указатель

Matsumoto, H.      206
Matthews, I.G.      244—245 248
Maurer, R.J.      63
Mayer, G.      226 236 238 257 291—293
McCammon, R.D.      166
McClelland, J.D.      419
McDonnell, W.R.      101
McHugh, W B.      109—110 123 141 143 156 162
McKeown, W.      110 135
McKinley, W.A.      21 28
McLean, D.      160
McPherson, H.G.      395
Mdody, J.W.      346—347
Mead, P.R.      105—106
Mean free path between collisions, fast charged particles      20
Mean free path between collisions, fast neutrons      16
Mean free path between collisions, primary recoils      45 figures
Mechanical properties      124 figures (see also “Tensile properties”)
Mechanical properties, alkali halides      297 figures
Mechanical properties, dislocation theory      68
Mechanical properties, ductility      374
Mechanical properties, hardness      374
Mechanical properties, tensile strength      374
Mechanical properties, yield point      68
Mechanical properties, yield strength      374
Mechanical strength, graphite      395
Mechanism of electronic conduction in semiconductors      315
Mecklin, G.F.      181
Meechan, C.J.      105 178 180
Megawatt days, integrated flux      81
MeGee, J.F.      130 177
MeReynolds, A.W.      102 110 135
Messenger, G.C.      342 365
Metan state      7 9 234
Meyer, E.A.      152
Microstructural changes      122 figures
Microstructure      154
Microstructure, neutron bombardment      124
Microstructure, steels      124
Microstructure, uranum      378
Microstructure, uranum molybdenum      386
Microstructure, uranum-niobium      386
Milk, M.M.      24 87 88 108
Miller, P.H.      285
Minerals, alpha-particle bombardment      7
Minerals, amorphous      7
Minerals, fluorspar      7
Minerals, metamict      7
Minerals, mics      7
Minerals, pleochroic halos      7
Minerals, radiation damage      6
Minerals, stored energy      6
Minerals, thorite      7
Minerals, zircon      7
Minority carrier traps, germanium      349 figures
Minority carrier traps, indium antimonide      337
Minority carrier traps, silicon      350
Minority-carrier lifetime, defect annealing      343
Minority-carrier lifetime, semiconductors      338 figures
Minority-carrier lifetime, transistors for measurement of      342
Minter, F.J.      136 140
Mitchell, E.W.J.      231 233 244—245 248 250 256—258 262—265
Mitchell, J.W.      73
Mobility and carrier scattering      317 344
Mobility, germanium      344 figures
Mobility, indium, antimonide      337
Mobility, interstitial      61
Mobility, ionic conductivity      150
Mobility, ionic crystals      61
Mobility, neutron-bombarded germanium      346
Mobility, semiconductors      344 figures
Mobility, silicon      333 343 345
Mobility, temperature dependence, aluminium antimonide      347
Mobility, temperature dependence, germanium      347
Mobility, temperature dependence, silicon      347
Mobility, vacancy      61
Model for disordered regions m neutron-bombarded germanium      346
Model of composite recombination centers in silicon      342
Mogford, I.      156
Molineaux, J.H.      166
Molybdenum, activation energy for recovery      102
Molybdenum, brittle fracture      150
Molybdenum, deuteron bombardment      209
Molybdenum, hardness      102
Molybdenum, lattice expansion      102
Molybdenum, neutron bombardment      102
Molybdenum, range of recoils, $(n, \gamma)$ reactions      48
Molybdenum, resistivity      109 112—113 115
Molybdenum, stored energy      107
Molybdenum, tensile properties      135
Molybdenum, transition temperature      106
Molybdenum, yield strength      138
Molybdenum, Young’s modulus      102
Monro, W.      161—162
Montet, G.L.      415 422
Morgan, J.G.      161
Mosely, H.G.      5
Mott, N.F.      21 180 166 284 292
Moyev, A.D.A.      128
Murphy, W.F.      145
Murray, G.T.      147 188 190—192 202
Muto, P.      208
Mylonas, C.      236
Nabarro, F.R.N.      68 71 180
Nelson, C.M.      259—263 270—272 274—275 280
Nentron converters.      18
Neufeld, J.      33 38 40
Neutron bombardment      79
Neutron bombardment, $\mathbf{Cu}_3\mathbf{Au}$       177
Neutron bombardment, $\mathbf{Cu}_3\mathbf{Au}$ , disordered      115
Neutron bombardment, $\mathbf{Cu}_3\mathbf{Au}$ , ordered      115
Neutron bombardment, activation energy for recovery      1025
Neutron bombardment, alfenol      16 184
Neutron bombardment, Alnico II, V, XII      187
Neutron bombardment, alpha-brass      115
Neutron bombardment, aluminum      102—103 105 110 115 121 128 134—135 161—162
Neutron bombardment, aluminum alloys      134
Neutron bombardment, aluminum oxide      213 237 281 305
Neutron bombardment, annealing      125
Neutron bombardment, antimony      115
Neutron bombardment, austenitic stainless steel      102 138
Neutron bombardment, barium ferrates      187
Neutron bombardment, barium titanate      235
Neutron bombardment, beryl      234
Neutron bombardment, beryllium      115 130
Neutron bombardment, beryllium oxide      237
Neutron bombardment, bismuth      110
Neutron bombardment, boromlicate glass      235
Neutron bombardment, carbon steel A-106      144
Neutron bombardment, carbon steel A-212      144
Neutron bombardment, carbon steels      136 143
Neutron bombardment, Carilloy T-1      153 150
Neutron bombardment, chryhoberyl      234
Neutron bombardment, cobalt      115
Neutron bombardment, coesite      233
Neutron bombardment, copper      102—104 105 100 110 115 117 121 123 128—130 134—135 140—141 102 172—173
Neutron bombardment, copper alloys      202 204
Neutron bombardment, copper-aluminum      201 204—205 208 211
Neutron bombardment, copper-beryllium      188—191
Neutron bombardment, copper-galham      201
Neutron bombardment, copper-iron      195
Neutron bombardment, copper-nickel      211
Neutron bombardment, copper-zme      201 207
Neutron bombardment, cordierite      237—238
Neutron bombardment, Croloy 16—21      143
Neutron bombardment, cunico      187
Neutron bombardment, cunife      187
Neutron bombardment, defect production      121
Neutron bombardment, diamond      218 figures 239 305
Neutron bombardment, experimental facilities      80

Neutron bombardment, forsterite      237—238
Neutron bombardment, gallium antimonide      338
Neutron bombardment, gamet      234
Neutron bombardment, germanium      222 322 324 340 358 360
Neutron bombardment, germanium, low temperature      352 figures
Neutron bombardment, gold      135
Neutron bombardment, gold films      124
Neutron bombardment, graphite      115 395
Neutron bombardment, hastalloy-X      136
Neutron bombardment, ierritic stainless steel      136
Neutron bombardment, impurities      80
Neutron bombardment, Inconel      161—162
Neutron bombardment, inconel-702      136
Neutron bombardment, Inconel-X, double-aged      136
Neutron bombardment, Inconel-X, single-aged      130
Neutron bombardment, indium antimonide      335
Neutron bombardment, indium arsenide      338
Neutron bombardment, iron      100 115 141 182 184
Neutron bombardment, iron-16 percent aluminum      184 figures
Neutron bombardment, iron-nickel 50:50      184 figures
Neutron bombardment, K-monel      136
Neutron bombardment, lead      125
Neutron bombardment, lithium fluoride      290 figures 298 301 300
Neutron bombardment, low carbon steels      155
Neutron bombardment, magnesium      103 115 128
Neutron bombardment, magnesium oxide      280—281
Neutron bombardment, mean free path      77
Neutron bombardment, mica      237—238
Neutron bombardment, microstructure      124
Neutron bombardment, molybdenum      102 107 100 112—113 115 135—136 156 162
Neutron bombardment, molybdenum permalloy 2—81      184 figures
Neutron bombardment, molybdenum permalloy 4—79      184 figures
Neutron bombardment, mu-metal      184 figures
Neutron bombardment, nickel      100 115 135 140 102
Neutron bombardment, nickel ferrite      184 figures
Neutron bombardment, nickel-beryllium      184 figures 191—192 106
Neutron bombardment, nickel-iron alloys      197—198
Neutron bombardment, nickel-manganese      183 figures
Neutron bombardment, orthonal      184 figures
Neutron bombardment, phenacite      234
Neutron bombardment, phosphor bronze      102
Neutron bombardment, plate glass      237—238
Neutron bombardment, platinum      115 121
Neutron bombardment, platinum-cobalt      187
Neutron bombardment, porcelain      237
Neutron bombardment, potassium chloride      270 272—274 280 307
Neutron bombardment, quartz and fused silica      224 figures 237—238 249 305
Neutron bombardment, ruby      305
Neutron bombardment, sapphire      237
Neutron bombardment, scattering cross section      77
Neutron bombardment, sieel-8.5 percent nickel      153
Neutron bombardment, silica      213
Neutron bombardment, silicon      222 331 344 364
Neutron bombardment, silicon carbide      222
Neutron bombardment, silicon-iron $3\frac12$ percent      184 figures
Neutron bombardment, silmanal      187
Neutron bombardment, silver      115 121
Neutron bombardment, silver in lithium diffusion      380
Neutron bombardment, sodium      102
Neutron bombardment, sodium azide      283
Neutron bombardment, sodium chloride      289
Neutron bombardment, spinel      237
Neutron bombardment, stainless steel 143      161—162
Neutron bombardment, Stainless steel 347      143 162
Neutron bombardment, stainless steel 410      143
Neutron bombardment, stainless steel, austemtic      197
Neutron bombardment, stainless weld metal      143
Neutron bombardment, steatite      237—238
Neutron bombardment, steel A-106      153
Neutron bombardment, steel A-212B      153
Neutron bombardment, steel-3.5 percent chromium      187
Neutron bombardment, steel-36 percent cobalt      187
Neutron bombardment, steels      124
Neutron bombardment, supermalloy      184 figures
Neutron bombardment, tin      199—200
Neutron bombardment, titania      237—238
Neutron bombardment, titanium      109 135 142 162
Neutron bombardment, topaz      234
Neutron bombardment, tungsten      109 112—113 115 135—136
Neutron bombardment, tungsten-aluminum .      102
Neutron bombardment, uranium      136 369 372 37 380
Neutron bombardment, uranium alloys      136 369
Neutron bombardment, uranium niobium      196
Neutron bombardment, uranium-molybdenum      196—198
Neutron bombardment, vanadium permendur 2      184 figures
Neutron bombardment, weld metal E-7016      144 153
Neutron bombardment, zinc      115 161—162
Neutron bombardment, zircaloy-2      133
Neutron bombardment, zirconium      109 115 133 135 161—162
Neutron bombardment, zirconium oxide      197—198 234 238
Neutron bombardment, zirconium, heavily cold-worked      136
Neutron energy spectra, fission reaction      16
Neutron energy spectra, nuclear reaction      18
Neutron energy spectra, reactors      18 50
Neutron scattering      see also “Scattering leng
Neutron scattering, aluminum oxide      104 282
Neutron scattering, beryllium      104
Neutron scattering, graphite      104
Neutron scattering, silica      104
Neutron sources, energy      92
Neutron sources, half-life      92
Newkirk, J.B.      196
Niblett, D.H.      128
Nickel      71
Nickel oxide, reduction      212
Nickel, activation energy for annealing      145
Nickel, density      71
Nickel, deuteron bombardment      111
Nickel, dislocation density      71
Nickel, energy of vacancy formation      64
Nickel, energy of vacancy motion      64
Nickel, energy release      71
Nickel, hardness      132 162
Nickel, resistivity      71 109 111 115
Nickel, temperature dependence, yield stress      140
Nickel, temperature of irradiation      140
Nickel, tensile properties      135
Nickel, thermal reoovery      111
Nickel-beryllium      191
Nickel-beryllium, Curie point      192
Nickel-iron alloys, martensitic transformation      197—198
Nickel-iron alloys, resistivity      197—198
Nickel-manganese      182 figures
Nickel-manganese, intrinsic induction      183 figures
Nickel-manganese, resistivity      183 figures
Niesenoff, M.      364
Noggle, T.S.      80 105 115 117 121 124 140 148 158
Notch-impact properties, Carilloy T-l      153
Notch-impact properties, neutron bombardment      153
Notch-impact properties, steel A-106      153
Notch-impact properties, steel-8.5 percent nickel      153
Notch-impact properties, Steel.A-212B      153
Notch-impact properties, weld metal E-7016      153
Nowick, A.S.      64 202 207 211 297
Nuclear reactions, $\mathbf{Al}^{27}(n, p)\mathbf{Mg}^{27}$       81
Nuclear reactions, $\mathbf{Al}^{27}(n, \alpha)\mathbf{Na}^{24}$       81
Nuclear reactions, $\mathbf{Mg}^{24}(n, p)\mathbf{Na}^{24}$       81
Nuclear reactions, $\mathbf{Np}^{237}$ (fission)      81
Nuclear reactions, $\mathbf{P}^{31}(n,p)\mathbf{Si}^{31}$       81
Nuclear reactions, $\mathbf{Si}^{28}(n,p)\mathbf{Al}^{28}$       81
Nuclear reactions, $\mathbf{S}^{32}(n,p)\mathbf{P}^{32}$       81
Nuclear reactions, $\mathbf{Th}^{232}$ (fission)      81
Nuclear reactions, $\mathbf{U}^{238}$ (fission)      81
Nuclear reactions, fission chambers      81
Nuclear reactions, resonance reactions      82
Nuclear reactions, threshold reactions      81
Oen, O.S.      28
Okkerse, B.      222—223
Opinsky, A.J.      373
Optical absorption, alkali halides, due to displacements      279 figures

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