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| Johnson K., Lark-Horovitz V.A. — Methods of Experimental Physics Solid State Physics (Volume 6/Part B) |
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Название: Methods of Experimental Physics Solid State Physics (Volume 6/Part B)
Авторы: Johnson K., Lark-Horovitz V.A.
Язык: 
Рубрика: Физика/
Статус предметного указателя: Готов указатель с номерами страниц
ed2k:
Год издания: 1964
Количество страниц: 416
Добавлена в каталог: 23.03.2008
Операции: Положить на полку |
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| Предметный указатель |
Leurgans, P. J. 281
Leverenz, H. W. 293 297 300 7 301(5)
Levinstein, H. 64
Lewis, H. W. 74 76 77
Lewis, I. A. 303
Lewis, T. J. 31
Lewschin, W. L. 310
Liebson, S. H. 303 304 313 344 349
Lifetime measurement 99 109
Lifetime measurement,  junctions 107—109
Lifetime measurement, determination by diffusion length 352—353
Lifetime measurement, integrated detection methods 100—101
Lifetime measurement, localized detection method 104—109
Lifetime measurement, on charge carriers 336 350—351
Lifetime measurement, steady state case 100—101 104—107
Lifetime measurement, transient case 101—104 107—109
Lifshitz, E. M. 77 225
Light amplification 355—356
Lind, E. L. 348
Linde, J. O. 116
Lindenhovius, H. J. 214
Linder, E. G. 365 369 3 372 3 373(3)
Lippich polarimeter 271
Liquid metals and semiconductors 66—67
Little, J. B. 344
Little, W. A. 303
Littleton, J. T. 45 46 29 71
Livingston, R. 308
Loebner, E. E. 127 315 319
Loferski, J. J. 365 366 369(3) 372 373 375 376 33
Logan, R. A. 89
London, F. 71 75(1)
Londons’ theory 75—76
Longini, R. L. 103
Lonsdale, K. 246
Lorentz — Sommerfeld theory of thermoelectric power 116—117
Lossev, O. V. 321
Lovett, C. M. 128
Low temperature irradiation and absorption cell 330—331
Low temperature thermoelectric power apparatus 122—123
Low, G. G. E. 79 83(7)
Lowery, H. 259
Lucas, M. 224
Ludwig, G. W. 102 350
Luminescence 293—334
Luminescence, color center 333—334
Luminescence, decay law 308—309
Luminescence, fast decay 311—313
Luminescence, fundamental concepts 293—297
Luminescence, growth and decay 308—313
Luminescence, modulated exciton sources 302—304
Luminescence, slow decay 309—311
Luminescence, spectral measurements 304—306
Luminophors see Phosphors
Luminous efficiency 306
Luramis, F. L. 64
Luttinger, J. M. 149
Luyckx, A. 319
Lynch, F. J. 71
Lynton, E. A. 74
M ller, K. A. 153 154 48
Mser, H. 128
Mser, H. A. 120
MacDonald, D. K C. 54 116 117 123 162
Macdonald, J. R. 156
Mackinnon, L. 78
MacNair, D. 66
MacNichol, E. F. 231
Maczuk, J. 67
Madelung, O. 148 149 155 23 163
Madigan, J. R. 107 108 79
Mador, I. L. 330
Maercks, O. 302 312
Magic Tee 237
Magnetic anisotropy 243—247
Magnetic anisotropy, magnetic resonance method 245—246
Magnetic anisotropy, magnetization curve 244—245
Magnetic anisotropy, susceptibility method 216 247
Magnetic anisotropy, torque method 245 247
Magnetic deflection measurements, in photoelectricity 379—380
Magnetic fields, critical 72—73
Magnetic fields, for nuclear resonance 239—240
Magnetic fields, production and measurement 164—165
Magnetic losses, A. C. and dynamic measurements 221— 224
Magnetic losses, measurements 222—223
Magnetic losses, pulse measurements 223
Magnetic losses, small excitation 222
Magnetic materials, relationships between B, H, and M vectors 209
Magnetic properties of solids 171—247
Magnetic resonance in anisotropic crystals 245—246 (see also Resonance phenomena)
magnetic susceptibility (see also Ferromagnetism and Ferrimagnetism)
Magnetic susceptibility, A. C. bridge, calibration 187—188
Magnetic susceptibility, A. C. method 184—188
Magnetic susceptibility, analytical balance 179
Magnetic susceptibility, ballistic methods 188—190
Magnetic susceptibility, corrections 191—193
Magnetic susceptibility, couple method 183—184
Magnetic susceptibility, experimental methods 178—193
Magnetic susceptibility, Faraday method 178—179 181 184
Magnetic susceptibility, force methods 178—184
Magnetic susceptibility, Gouy method 178—179
Magnetic susceptibility, Hartshorn bridge 184—187 188
Magnetic susceptibility, induction methods 184—190
Magnetic susceptibility, Langevin method 172
Magnetic susceptibility, measurement 171—193
Magnetic susceptibility, measurement in strong fields 190—191
Magnetic susceptibility, metals and semiconductors 176—178
Magnetic susceptibility, solids with exchange interactions 174— 176
Magnetic susceptibility, torsion balance 170—182
Magnetic susceptibility, vibration methods 190
Magnetization curves 219 244—245
Magnetization, nonlinear 218—221
Magnetization-field relationship 200
Magneto-optical effect 276—278
Magneto-thermoelectromotive force 120
Magnetoresistance 160—165
Magnetoresistance, analysis of data 165
Magnetoresistance, electric measuring technique 165
Magnetoresistance, preparation of materials 162—164
Magnetoresistance, ratio 160—161
Magnetoresistance, temperature control 165
Makoyver, B. 43
Malakhov, L, N. 345
Malkovska, M. 79 365 372(2)
Many, A. 79 83 8 94 95 96 102 51 141 151
Mapother, D. E. 72 73(4)
Mapsfield, R. 128 147
Marginal oscillator method 233—234
Margoninski, Y. 141
Marhurger, R. E. 366 372 14
Marinace, J. C. 66
Martens, F. F. 253
Marx circuit 30
Marx, J. W. 54 55 51
Matossi, F. 293 319 320
Matthias, A. 26
Matthias, B. 269
Matthijs, C. J. 124
Mattler, J. 316
Matyas, M. 127
Maurer, R. J. 333
Maver 5
Mavroides, J. G. 148
Maxwell, D. E. 234
Maxwell, L. R. 196 207 208 25
Mayburg, S. 101 351
McAfee, K. B. 373
McCain, C. E. 344
McClure, D. S. 307
McClure, R. E. 234
| McCoubrey, A. O. 77
McCubbin, Jr 252
McGee, J. D. 354
McGuire, T. R. 181 196
McKay, K. G. 338 373
McKeehan, L. W. 171 204
McKelvey, J. P. 93 103
McKim, F. R. 186
McLaucblan, T. A. 279
McMahon, J. E. 107
McMillen, J. H. 379
McWhorter, A. L. 142 143
Me Nicholas, H. J. 306
Mechanical strain in optical measurements 271—273
Meek, J. M. 31
Mefesner, W. 32 125 126 66
Meiboom, S. 147 148 13 161 165
Meissner — Ochsenfeld effect 71
Memelink, O. W. 348
Mendelssohn, K. 77
Merritt, F. R. 242 246
Metals, bulk measurement of resistance 53—57
Metals, photoemission data 380—381
Meyer, L. H. 234
Meyerhofif, W. 132 135 13
Michan, I. V. 170
Michels, W. C. 32 38 5 40 5 41(5)
Micrometer electrodes 4
Microwave absorption 48
Microwave electron spin resonance 235—239
Microwave electron spin resonance, components 236—239
Microwave electron spin resonance, sources 235—236
Microwave Faraday rotation 243
Middleton, A. E. 121
Mie, G. 332
Mielczarek, E. V. 128
Miles, P. A. 211
Miller, L. E. 89 90 38
Miller, P. 132 135 13
Miller, P. H. 341
Milner, C. J. 57 354
Minden, H. T. 345
Minor, R. S. 259 260
Minority carrier depletion 83—84
Minority carrier drift 359
Minority carrier lifetime from photoelectromagnetic measurement 359
Miyata, N. 120
Mizushima, S. 65
Mobility measurement, of a carrier pulse 91—93
Mobility, ambipoiar 93—94
Mobility, determination from photoconductivity Mobility, measurements 353
Mobility, drift 91—95
Modulated excitation sources 302—304
Monch, G. C. 127
Monochromatic plane waves 249
Monochromator 285
Montgomery, C. G. 48 57 60 113 236
Montgomery, H. C. 139 140(7)
Moore, A. R. 104
Mooser, E. 120 179
Morey, G. W. 45 46 29 71
Morin, F. J. 128
Morrison, S. R. 100 137 138 4 140 143 349
Morse, R. W. 78
Mortlock, A. J. 117 119 24
Morton, G. A. 340 342
Morton, H. S., Jr 303
Moss, T. S. 87 252 335 341 342 344 351 358 359 362(3 9)
Mostovetch, N. 65
Mott, N. F. 69 255 325 333(3)
Mould, R. E. 72 73(4)
Moyer, J. W. 366
Mueller, H. 274
Muench, N. L. 74
Muller, F. A. 43
Multialkali cathodes 389
Munick, R. J. 133
Munsch, M. 354
Murmann, H. 281
Muscheid, W. 345 354
Myers, R. D. 313
N el theory 195—196
Nel, L. 176 195 218
Nagamiya, T. 176
Nail, N. R. 308 309 26
Nandy, K. P. 64
Navon, D. 84 85 94 21 95 17 99 17 101 21 102 17 103 17 104 21 105 21
Neel’s equation 176
Nelson, R. C. 344 346
Nergaard, L. S. 135
Nernst effect 166 168—169
Nernst, W. 166
Neustaxlter, S. F. 107
Newman, R. 85 87 253 321 348 349
Nichols, M. 129 133 2 134(2)
Nicoll, F. H. 315 343 356
Niehrs, H. 292
Niekisch, E. A. 352 353
Nilsson, A. 291
Nisenoff, M. 101 340
Nix, F. C. 338
Noga, K. 128
Nonequilibrium carrier concentrations, generation by light 79—80
Nonequilibrium carrier concentrations, methods of production 79—84
Nonequilibrium carrier concentrations, minority carrier depletion 83—84
Nonequilibrium carrier concentrations, production by injection 80—82
Nonequilibrium semiconductor phenomena 78—109
Nordlin, H. G. 43
Noskov, M. M. 364
Nottingham, W. B. 129 130 136
Novikova, E. K. 55
Noyce, R. N. 372
Nuclear induction 232—233
Nuclear resonance bridge circuits 230— 232
Nuclear resonance techniques 229—234
Nudelman, S. 319
Null coil pendulum 206—207
Null pendulum magnetometer 206—207
Null-balance principle 9
Nystrom, J. 116 125
Oakes, W. G. 29
Oatley, C. W. 317
Oberlander, S. 314
Obrien, B. 259
Oeser, H. 354
Oetjen, R. A. 252
Ohmmeter measurement 33 53—54
Ohmmeter method 57
Okada, J. 65
Oliver, D. J. 359
Onnes, H. K 173
Onsager relations 115
Oppenheim, U. 65
Optical activity 250 270—271
Optical measurements, general experimental equipment 252— 253
Optical measurements, on thin films 278—281
Optical properties of solids 249—292
Optical properties of solids, refractive indices 250—251
Optical rotation 270—278
Optically isotropic materials 254—263
Ortmann, H. 315
Otter, F. A. 54 118 127
Oughton, C. D. 357
Overhauser, A. W. 243
Owen, J. 227
O’Kane, B. J. 3
Packard, M. 227 229
Painted contacts 52
Pake, G. E. 227 232
Pakswer, S. 354
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