Rosenberg H.M. — Low temperature solid state physics. Some selected topics :: Электронная библиотека попечительского совета мехмата МГУ

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Rosenberg H.M. — Low temperature solid state physics. Some selected topics

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Название: Low temperature solid state physics. Some selected topics

Автор: Rosenberg H.M.

Аннотация:

This is a book of simple explanations. I have written it because the understanding of many of the topics with which solid-state physics is concerned is bedevilled by the fact that the physicist cannot see the physics for the mathematical hedge which besets him on all sides. Because of this, certain subjects are only open to the select few who have mastered some specialized skills. But however important a full mathematical treatment is for the detailed description of a phenomenon, there is often a simple physical model or argument which can be used to gain insight into a problem and it is this approach which has been used wherever possible. In this way I hope that the book will prove useful to the experimentalist who wishes to understand more about the processes which he proposes to investigate and also to the student who has learnt a little and wishes to explore farther.

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Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1963

Количество страниц: 437

Добавлена в каталог: 11.04.2013

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Предметный указатель

Isothermal annealing experiments      86
Isotope effect in superconductivity      185 197
Isotope effect, thermal conductivity      64 65
Isotopes in nuclear HFS      338
Isotopes scattering of phonons in thermal conductivity      54 58 59 62 143
Isotopes scattering of phonons in thermal conductivity, experiments on Ge      63 64 143
Isotopes scattering of phonons in thermal conductivity, relative effect in different substances      63 65
Jackson, L. C. (1936), Proc. Phys. Soc.      48 741 302
Jahn — Teller effect      298 300 301
Jahn, H. A., and Teller, E. (1937), Proc. Roy. Soc. A      161 220 298
James, H. M. (1956), Quarterly Report Oct.-Dee.      1956 Purdue 240
Jan, J. P.      see Christian
Johansson, C. H.      see Borelius
Johansson, C. H., and Linde, J. O. (1936), Ann. Phys. (5)      25 1.79
Johnson, F. A. (1959), Proc. Phys. Soc.      73 265 252
Johnson, L.      see Beyen
Johnson, L. Levitt, R.      see Honig
Johnson, L., and Levinstein, H. (1960), Phys. Rev.      117 1191 254
Johnson, Y. A., and Lark-Horovitz, K, (1957), Prog, in Low Temp. Phys.      2 187 23
Jones, G. O.      see Chester Hulbert
Jones, H.      see Mott
Jonker, J. M.      see de Haas
Joos, G. (1934), Theoretical Physics (Blackie, London)      3
Junction of semiconductors      219
Kaiser, W., and Fan, H. Y. (1954), Phys. Rev.      93 977 253
KCl, Gr $\ddot{u}$ neisen $\gamma$       41
KCl, thermal conductivity      64 65
Keesom, P. H., and Seidel, G. (1959), Phys. Rev.      113 33 22
Keesom, W. H., and Kurelmeyer, B. (1940), Physica      7 1003 20
Keesom, W. H., and Matthijs, C. X (1935), Physica      2 623 275;
Keesom, W. H., and van Laer, P. H. (1938), Physica      5 193 159
Kemp, W. R. G.      see Harper
Kemp, W. R. G., Klemens, P. G., and Tainsh, R. J. (1959), Phil. Mag.      4 845 137
Keyes, R. J., Zwerdling, S., Foner, S., Kolm, H. H., and Lax, B. (1956), Phys. Rev.      104 1804 243
Kinetic theory, expression for electrical conductivity      74 104 112 223
Kinetic theory, for thermal conductivity      46 60 112 115 281
Kip, A. F.      see Dresselhaus
Kittel, O.      see Dresselhaus Owen
Kittel, O. (1956), Introduction to Solid State Physics, 2nd ed. (Wiley, New York)      5 68 359
Klauder, J. R., and Kunzler, J. E. (1960), The Fermi Surface, ed. Harrison and Webb (Wiley, New York)      p. 125 109
Klemens, P. G.      see Harper Kemp
Klemens, P. G. (1954), Aust. J. Phys.      7 57 121
Klemens, P. G. (1955), Proc. Phys. Soc. A      68 1113 137
Klemens, P. G. (1956), Hand. d. Phys.      14 198 114 116 124
Klemens, P. G. (1958), Solid State Physics      7 1. 57
Knight, W. D.      see Owen
Koehler, J. S.      see Doyama
Koenig, S. H. (1959), J. Phys. Ghem. Solids      8 227 260
Koenig, S. H., and Gunther-Mohr, G. R. (1957), J. Phys. Solids      2 268 258 259 260
Kohler diagram      106 107
Kohler plot and rule      106 107
Kohler, M. (1938), Ann. Phys. (5)      32 211 106
Kohler, M.(1949) Ann. Phys. (6)      6 18 107
Kohler’s rule for magneto-resistivity      106
Kohn, W. (1957), Solid State Physics      5 257 251
Kohn, W., and Luttinger, J. M. (1955), Phys. Rev.      98 915 250
Kolm, H. H.      see Keyes
Koppe, H. (1947), Arm. Phys. (6)      1 405:
Kramers theorem      298 301 302
Kramers, H. A. (1930), Proc. Kon Ahad. Amst.      33 959 298
Krishnan, K. S., and Mookherji, A. (1938), Phil. Trans. A      237 135 335
Kronig, R. de L. (1939), Physica      6 33 325
Kropschott, R. H.      see Arp
Kubo, R.      see Nagamiya
Kunzler, J, E.      see Herring Klauder
Kunzler, J, E., Buehler, E., Hsu, F, S. L., and Wemick, J. H. (1961), Phys. Rrn. Letters      6 90 206
Kuper, O. G. (1951), Phil. Mag.      42 961 177
Kurelmeyer, B.      see Keesom W.
Kurti, N.      see Arp
Lambda point, liquid He      8 32
Laminae, intermediate state of superconductors      174 175 176 177 186
Land $\acute{e}$ splitting factor      290
Landau, L. D. (1930), Z. Phys.      64 629 348
Langenberg, D. N.      see Stiles
Langenberg, D. N. (1959), Doctoral diss. University of California, Berkeley, California      81
Lanthanides      see Rare earth
Laredo, S. J. (1955), Proc. Roy. Soc. A      473 131
Laredo, S. J., and Pippard, A. B. (1955), Proc. Camb. Phil. Soc.      51 368 133
Lark-Horovitz, K.      see Fritzsche Johnson V.
Latent heat, at superconducting transition      157
Latent heat, of liquid He at lambda point      8
Lattice absorption in semiconductors      245 252
Lattice conduction in metals      119 120 136
Lattice conduction in non-metals      see Thermal conductivity of non-metals
Lattice distortion around impurities      76
Lattice imperfections, electrical resistivity of      81 ff.
Lattice imperfections, thermal resistivity of      136 ff.
Lattice interaction with point defects, dislocations      see Internal friction
Lattice specific heat      3 ff. 160
Lattice vibrational energy      6 245
Lattice vibrational frequency      4
Lattice vibrational spectrum      11 47 94 236
Lattice vibrations, effect on mobility in semiconductors      223
Lattice vibrations, wavelength at low temperatures      9
Lattice vibrations, wavelength at low temperatures, dominant wavelength      10
Laurmann, E., and Shoenberg, D. (1949), Proc. Roy. Soc. A      198 560 167
Lax, B.      see Keyes
Lax, B., and Mavroides, J. G. (1960), Solid State Physics      11 261 242
Lead telluride, de Haas — van Alphen effect      357
Lead, absolute thermo-electric power      264
Lead, anomalous skin effect      104 105
Lead, atypical superconducting behaviour      197
Lead, high superconducting transition temperature      147 148
Lead, in intermediate state      134
Lead, superconducting, deformed, thermal conductivity      141
Lead, superconducting, tunnel experiments      204
Lead, thermal conductivity      129
Lead, thermal conductivity, after deformation      141
Lead, thermal switch      134
Lead, thermopower, data      264 269
Lead-bismuth alloy, thermal conductivity, intermediate state      134 135
Lead-bismuth, thermal conductivity in intermediate state      133 134 135
Lead-indium alloy, $B\sim H$ curve      182
Lead-indium, $B\sim H$ curve      181 182
Leibfried, G., and Schl $\ddot{o}$ mann, E. (1954), Nachr. G $\ddot{o}$ tt. Akad. Math. Phys.      2a 71:
Lenz’s law      286
Leslie, D. H.      see Berlineourt
Level broadening      see Broadening of levels
Level splittings      see Splitting of energy levels
Levinstein, H.      see Beyen
Lifetime of carriers      214 253 254
Light and heavy holes      229 241 242
Linde, J. O.      see Borelius Gerritsen Johansson
Linde, J. O. (1932), Ann. Phys. (5)      15 219 77
line width      see Broadening
Liquid helium, latent and specific heats at lambda point      8 9
Liquid helium, transition to He II      32
Lithium fluoride, thermal conductivity      63 65
Lithium, Debye $\theta$       12
Lithium, martensitic transformation      372
Lithium, martensitic transformation, serrated stress-strain curves      372
Lithium, thermal conductivity      119
Lithium, thermopower      268 273
Lithium-magnesium alloys, thermopower      272
Localized state absorption in semiconductors      245 249
Lock, J. M. (1951), Proc. Roy. Soc. A      391 167 172
Logarithmic creep      374
Lomer, J. N. (1958), D.Phil. thesis, Oxford University      123 124 125
Lomer, J. N., and Rosenberg, H. M. (1959), Phil. Mag      4 467 84 137 138 139 140
London theory of superconductivity      163 187
London, F. (1950), Superfluids, vol. 1 (Wiley, New York)      163 165 168 186
London, F., and London, H. (1935), Proc. Roy. Soc. A      149 71 163
London, F., and London, H. Physica      2 341 163
London, H.      see Appleyard London F.
London, H. (1940), Proc. Roy. Soc      176 522 102 169
Long, D., and Myers, J. (1959), Phys. Bev.      115 1107 237
Long-range order in superconductors      186 187
Longitudinal effective mass      229 230 242
Longitudinal field, destruction of superconductivity      149 154 156
Longitudinal phonons      51 282

Longitudinal phonons, electron interaction      117
Lorenz number      112 120
Lorenz number, dependence on temperature and purity      120
Lounasmaa, O. V., and Roach, P. R., Phys. Bev.      128 622 31
Love, W. F. (1960), Paramagnetic Resonance in Solids (Academic Press, New York)      329; see Arp Low W.
Low conductivity alloys      124
Luttinger, J. M.      see Kohn
Lynton, E. A.      see Chanin
Lynton, E. A. (1962), Superconductivity (Methuen, London)      147
MacDonald, D. K. C. (1954), Physica      996 270
MacDonald, D. K. C. (1956), Handb. d. Phys.      14 137 88 95 100
MacDonald, D. K. C. (1962), Thermo-electricity (Wiley, New York)      262
MacDonald, D. K. C., and Pearson, W. B. (1953), Proc. Boy. Soc. A      219 373 89 274 275
MacDonald, D. K. C., and Pearson, W. B., and Templeton, I. M. (1958), Phil. Mag.      3 657 267
MacDonald, D. K. C., and Pearson, W. B., and Templeton, I. M. (1958a), Proc. Boy. Soc. A      248 107 268
MacDonald, D. K. C., and Pearson, W. B., and Templeton, I. M. (1960), Proc. Boy. Soc. A      256 334: 272 273
MacDonald, D. K. C., and Sarginson, K. (1950), Proc. Boy. Soc. A      203 223 100
MacDonald, D. K. C., White, G. K., and Woods, S. B. (1956), Proc. Boy. Soc. A      235 358 119; Gold Gu
Macfarlane, G. G., McLean, T. P., Quarrington, J. E., and Roberts, V., Phys. Bev.      108 1377 246
MacRae, A.      see Beyen
Magnesium, electronic specific heat      18
Magnesium, magneto-resistance      106
Magnesium, magneto-resistivity      106
Magnesium, resistance minimum      87
Magnetic dilution      292 304 307 316
Magnetic field effects in semiconductors      261
Magnetic field within a superconductor      164 165 166
Magnetic moment of electron      286 286
Magnetic moment of electron, combination of spin and orbital      287 288 289
Magnetic moment of electron, orbital      286 288
Magnetic moment of electron, permanent      287
Magnetic moment of electron, quantum number,       288
Magnetic moment of nucleus      308
magnetic properties      285 ff. (see also Adiabatic demagnetisation Anti-ferromagnetism Diamagnetism Ferromagnetism Ferromagnetism de Paramagnetic Paramagnetic Paramagnetic
Magnetic saturation      see Saturation of magnetic moment
Magnetic specific heat      see Schottky specific heat
Magnetite, Fe ${}_{3}$ O ${}_{4}$ , ferrite      315
Magnetization, rare earth garnets      317
Magnetization, thin films, Sn      172
Magneto-optic method to show intermediate state      178 180
Magneto-optic resistivity      105 ff.
Magneto-optic resistivity, bismuth      107 177
Magneto-optic resistivity, Fermi surface determinations      108
Magneto-optic resistivity, free electron metal      108
Magneto-optic resistivity, Kohler’s rule      106
Magneto-optic resistivity, oscillatory effects      146
Magneto-optic resistivity, polar diagram      110
Magneto-optic resistivity, saturation      110
Magneto-optic resistivity, semiconductors      261
Magneto-optic resistivity, size effect      100
Magneto-optic resistivity, thermal conductivity      146
Magneto-resistivity, Cd, thermal resistance      145
Magneto-resistivity, Co crystal      109
Magneto-resistivity, Kohler plot      107
Magneto-resistivity, Mg, Kohler’s rule      106
Magneto-resistivity, Na, size effect      102
Magneto-resistivity, Zn, thermal resistance      145
Maita, J. P.      see Morin
Makinson, R. E. B. (1938), Proc. Camb. Phil, Soc.      34 474 121
Manchester, P. D.      see Frank
Manganese fluoride, susceptibility      315
Manganese, effect on resistance minimum and maximum      88 89
Manganese, thermal conductivity      119
Mapother, D. E. (1962), I.B.M. J. Bes and Developm.      6 77 151
Martensitie transformation, lithium      372
Martensitie transformation, sodium      272
Martin, D. L.      see Frank
Maser      340
Maser, use as an oscillator      342
Mason, W. P. (1955), Bell Syst. Tech. J.      34 903 384
Matthias, B. T.      see Bozorth Hein
Matthias, B. T. (1955), Phys. Bev.      97 74 182 183
Matthias, B. T. (1957), Prog, in Low Temp. Phys.      2 138 181
Matthias, B. T., Geballe, T. H.. Geller, S., and Corenzwit, E. (1954), Phys. Rev      95 1435:
Matthiessen’s rule      43 75 226
Matthijs, C. J      see Keesom W.
Mavroides, J. G.      see Lax
Maximum in thermal conductivity, electronic      117
Maximum in thermal conductivity, phonon      62
Maxwell — Boltzmann statistics, average of a function over a Maxwellian energy distribution      223
Maxwell, E. (1950), Phys. Bev.      78 477 186
Maxwell-Boltzmann statistics, for semiconductors      223 232
McCammon, R. D. (1957), D.Phil. thesis, Oxford University      88
McCammon, R. D., and Rosenberg, H. M. (1957), Proc. Boy. Soc. A      242 203 370 379 380
McLean, T. P.      see Macfarlane
McSkimin, H. J. (1953), J. Appl. Phys.      24 988 362
Mean free path      see also Scattering of electrons phonons
Mean free path, definition      46
Mean free path, of electrons, anomalous skin effect      103
Mean free path, of electrons, due to impurities      112
Mean free path, of electrons, in a metal      98
Mean free path, of electrons, thin specimen      99
Mean free path, of phonons, by experiment      60 61
Mean free path, of phonons, in amorphous materials      46
Mean separation of atoms      36
Mechanical properties      359 ff.
Mechanical properties, brittle fracture      370
Mechanical properties, creep      373 ff. (see also Tensile properties)
Mechanical properties, elastic moduli      360
Mechanical properties, fatigue      378 ff.
Mechanical properties, fracture strength      369 381
Mechanical properties, internal friction      382 ff.
Mechanical properties, internal stress      360
Mechanical properties, mechanism of slip in crystals      359
Mechanical properties, obstacles to dislocation motion      360
Mechanical properties, serrated stress-strain curves      372
Mechanical properties, strain-rate experiments      366
Mechanical properties, superconductors      162
Mechanical properties, tensile properties at low temperatures      363 ff.
Mechanical properties, tunnel effect      377
Mechanical properties, ultrasonic techniques      361
Mechanical properties, yield stress      359 360 363 370 371
Meissner effect      152 163 176 180 181
Meissner, W. (1927), Z. ges. K $\ddot{a}$ eindustr.      197 277
Meissner, W., and Ochsenfeld, R. (1933), Naturwiss.      787 152
Meissner, W., and Voigt. B. (1930), Ann. Phys. (5)      761 87
Meissner, W., Polanyi, M., and Schmid, E. (1930), Z. Phys.      66 477 377
Memory cryotron      208
Mendelssohn ‘sponge’      181
Mendelssohn, K.      see Chaudhuri Daunt
Mendelssohn, K., (1935). Proc. Boy. Soc. A      152 34 181
Mendelssohn, K., (1936), Proc. Boy. Soc. A      155 558:
Mendelssohn, K., (1961), Solid State Physics      12 223:
Mendelssohn, K., and Moore, J. R. (1935), Nature      135 826 181
Mendelssohn, K., and Olsen, J. L. (1950), Phys. Bev.      80 859 133 134 135
Mendelssohn, K., and Olsen, J. L. (1950), Proc. Phys. Soc. A      63 2 1182
Mendelssohn, K., and Pontius, R. B. (1937), Phil. Mag.      24 777 126
Mendelssohn, K., and Renton, C. A. (1955), Proc. Boy. Soc. A      230 157 131
Mendelssohn, K., and Rosenberg, H. M. (1953), Proc. Boy. Soc. A      218 190 145
Mendelssohn, K., Ruhemann, M., and Simon, F. E., Phys. Chem. B      15 121 33
Mendoza, E. (1961), Experimental Cryophysics, ed. by Hoare, Jackson, and Kurti (Butterworths, London), p.      165 344
Mendoza, E., and Thomas, J. G. (1951), Phil. Mag.      291 89
Mercury, $B\sim H$ curves      155
Mercury, $H_{s}/H_{c}$       173
Mercury, atypical superconducting behaviour      197
Mercury, colloid, superconducting penetration depth      166
Mercury, electronic specific heat      18
Mercury, penetration depth      166
Mercury, susceptibility, colloid      166
Meshkovsky, A. G., and Shalnikov, A. I., J. Phys. USSR      11 1. Plate
Metal      see under individual metals and specific properties
Meyer, H.      see Cooke
Meyer, H., and Smith, P. L. (1959), J. Phys. Chem. Solids      9 285 30
Meyer, H., O’Brien, M. C. M., and Van Vleck, J. H. (1958), Proc. Boy. Soc. A      243 414 319
Micro-cracks      371
Micro-cracks, in fatigue      378 381
Micro-cracks, propagation      381
Microcrystalline substances, thermal conductivity      67
Mielczarek, E. V.      see Frederikse
Migration of point defects      84 85 86

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