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Marder M.P. — Condensed matter physics

Marder M.P. — Condensed matter physics

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Название: Condensed matter physics

Автор: Marder M.P.

Аннотация:

This new work presents for the first time in decades a sweeping review of the whole field of condensed matter physics. It consolidates new and classic topics from disparate sources, teaching "not only about the effective masses of electrons in semiconductor crystals and band theory, but also about quasicrystals, dynamics of phase separation, why rubber is more floppy than steel, electron interference in nanometer-sized channels, and the quantum Hall effect."
Six major areas are covered-atomic structure, electronic structure, mechanical properties, electron transport, optical properties, and magnetism. But rather than defining the field in terms of particular materials, the author focuses on the way condensed matter physicists approach physical problems, combining phenomenology and microscopic arguments with information from experiments. For graduate students and professionals, researchers and engineers, applied mathematicians and materials scientists, Condensed Matter Physics provides:
* An exciting collection of new topics from the past two decades.
* A thorough treatment of classic topics, including band theory, transport theory, and semiconductor physics.
* Over 300 figures, incorporating many images from experiments.
* Frequent comparison of theory and experiment, both when they agree and when problems are still unsolved. * More than 50 tables of data and a detailed index.
* Ample end-of-chapter problems, including computational exercises.
* Over 1000 references, both recent and historically significant.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2000

Количество страниц: 928

Добавлена в каталог: 04.12.2013

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

Предметный указатель

Margaritondo, G.      667
Marion, J.B.      11 75
Martel, P.      410
Martensitic transformation      279 434
Martin, J.H.      606
Maslen, V.W.      65 68
Maslov index      431
Massalski, T.B.      68 131
Masuda, Y.      827 839
Mathur, N.D.      839
Matsuda, T.      743 840
Matthias, B.T.      679 706
Matthiessen's rule      486 763
Mattis, D.C.      781
Mattis, D.C., Lieb — Mattis theorem      748
Mattis, D.C., magnon bound states      756
Maugin abacus      56 66
Maxon      395
Maxwell's equations      563—566
Maxwell, E.      802 839
Maxwell, J.C.      xxii
MBE      see "Molecular beam epitaxy"
McCaldin, J.O.      558
McClintock, P.V.E.      408
McGill, T.C.      558
McLean, T.P.      607
McMillan, E.M.      68
McMillan, W.      827 839
McMurry, S.      131
McRae, E.G.      667
Mean field theory      703 704
Mean field theory, alloy superlattices      689—691
Mean field theory, Anderson model of magnetic impurities      777
Mean field theory, Fermi liquids      465
Mean field theory, Hubbard model      773
Mean field theory, Ising model      682—684
Mean field theory, size of mean field      684
Mean field theory, superconductivity      817
mean free paths      155 509 641
Mean free paths, table for liquid metals      485
Mega-buck evaporator      see "MBE"
Meier, F.      781
Meilkhov, E.Z.      294 303 373 409 458 478 515 676 705 790 838
Meinhardt, H.      130
Meirav, U.      556 558
Meissner effect      see "Superconductivity Meissner
Meissner, W.      783 787 788 839
Mendez, E.E.      432 440
Menon, M.      105 131
Menon, R.      514 516
Mercereau, J.E.      798 839
Mermann, A.      259
Mermin — Wagner theorem      355 830
Mermin, N.D.      131 269 285 340 374
Mermin, N.D., Debye — Waller factor in single sentence      333
Mermin, N.D., Mermin — Wagner theorem      355
Mermin, N.D., orientational order      355
Mermin, N.D., quasicrystallography      124
Meservey, R.      821 839
Metal-insulator transitions      488—491
Metal-insulator transitions, summary of many systems      492
Metal-insulator transitions, transition metal oxides      660
Metal-oxide-silicon      549—550
Metals, cohesive energy      272—279
Metals, defined in single-electron theory      246
Metals, dielectric function      567
Metals, ductile      385
Metals, interband optical transitions      646—649
Metals, liquid      482 484
Metals, optical absorption      570
Metals, optical properties      637—666
Metals, table of densities deduced from pseudopotentials      276
Metals, table of magnetic susceptibilities      723
Metals, table of mean free paths in liquid      485
Metals, table of thermoelectric properties      458
Metastable states      574 600
Method of successful approximations      xxi
Metois, J.J.      4 15
Mg, Fermi surface      252
Michel, J.      607
Michel, K.H.      374
Micnas, R.      839
Microcrystalline      94
Micromagnetics      686
Miedema, A.R.      706
Mieghem, P.      607
Miller index      51
Miller index in cubic crystals      51
Miller index in hexagonal lattices      52
Miller, A.      558
Miller, T.      668
Millikan, R.A.      136 153
Minnhagen, P.      374
Minority carriers      543 546 595
Mints, R.G.      838 839
Mises yielding condition      387
Mitrovic, B.      837
MnO, antiferromagnetism      61
Mobility      541 550 733
Mobility edge      500 501 507
Mode counting for phonons and electrons      308
Modes, optical      see "Phonons optical"
Modulus of elasticity      293
Moessbauer effect      336—339 678
Moessbauer, R.      337 340
Molecular beam epitaxy      76
Molecular Dynamics      98 282
Mollwo, E.      624 635
Momentum conservation, inelastic light scattering      649
Momentum conservation, optical absorption      590
Momentum conservation, phonons      327
Momentum conservation, photoemission      655
MoNb, resistance minimum      764
Moncton, D.E.      374
Monin, A.S.      410
Monte Carlo method      97 126 282
Monthoux, P.      833 839
Montroll, E.W.      340
Mook, H.A.      782
Moran-Lopez, J.L.      780
Moruzzi, V.L.      762 781
MOS      see "Metal-oxide-silicon"
Moses, D.      516
Mott transition      491
Mott, N.F.      516 624 635 667
Mott, N.F., Mott insulators      488 659
Mott, N.F., Mott — Bethe relation      67
Mott, N.F., Mott — Wannier excitons      591
Mozer, B.      329 340
Mueller, K.A.      828 837
Muffin-tin potential      241
Mulay, L.N.      716 742
Muller, K.A.      837
Multiple scattering      47
Murnaghan, F.D.      170 177 184
Murray, C.A.      357 374
n, $n_{i}$ , Bose — Einstein factor      319
n, $\bar{n}$ , index of refraction      566
n, $\hat{n}$ , director in liquid crystals      108
n, $\hat{n}$ , unit normal      161
n, band index      157
N, bcc Brillouin zone symmetry point      171
n, electron density      60
n, integer      11 70
N, N-process      485
N, number of particles      48
n, particle density      100
Na, interband optical transitions      646
Na, resistance versus temperature      487
Na, specific heat      322

NaCl, atomic radii      264
NaCl, charge density      264
NaCl, coloration by sodium and X-rays      623
NaCl, structure      25
NaCl, X-ray scattering      43
Nadarzinski, K.      73 86
Naebauer, M.      794 796 838
Nagasaka, S.      273 286
Nagel, S.R.      104—106 129 131 303
Nanotubes      125
Navier — Stokes equation      378
Nd, lasers      600
Nearly free electrons      185—193 199
Neel state      757
Neel temperature      680
Neel, L.      680 706
Nelin, G.      330 341
Nelson, D.A.      285
Nelson, D.R.      131 374 837
Nelson, D.R., icosahedral symmetry      124
Nelson, D.R., two-dimensional melting      356
Nematics      108
Nemirovskii, S.K.      410
Nenciu, G.      440
Nesbitt, L.B.      839
Neumark, G.F.      607
Neutrons, creating and destroying phonons      336
Neutrons, differential scattering cross section      330
Neutrons, elastic scattering      61
Neutrons, inelastic scattering      326—339
Neutrons, scattering in $^{4}He$       395 403
Neutrons, thermal      61
Newton's Laws      99
Ni, ferromagnetism      679 684 762
Ni, neutron scattering      329
Nicklow, R.M.      68
Nilsson, G.      330 341
NiO, insulator      248 659
NiO, magnetic structure      681
Niu, Q.      409 426 440 441
Nix, F.C.      781
NMR      see "Nuclear magnetic resonance"
Noakes, D.R.      705
Nobel, J.      839
Noble gases, band structure      248
Noble gases, cohesive energy      265
Noble gases, table of cohesive energy parameters      267
Noble gases, table of magnetic susceptibilities      717
Noble metals, band structure      250
Noble metals, Fermi surfaces      435
Noble metals, interband optical absorption      649
Noguchi, T.      514
Noise, 1/f      488
Noise, Johnson      488
Noise, shot      488
Noise, thermal      487
Non-radiative decay      600
Nondegenerate electron gas      145
Nonsymmorphic      36
Normal scattering      485
Norrby, L-J.      667
Nozieres, P.      410 479 781
Nuclear magnetic resonance      678
Nucleation      95 403
Nurmikko, A.V.      607 743
Nussbaumer, H.J.      846 848
Nyquist, H.      488 516
O, octahedral point group      33
Oblique lattice      see "Lattices"
Occupation number      138 853
Ochsenfeld, R.      783 787 788 839
Ohm's law      509
Ohmic contact      534
Ohmic junction      556
Ohnishi, T.      514
Ohtaka, K.      668
Oja, A.S.      706
Okaya, Y.      67
One-electron model      see "Single-electron model"
Onsager relations      450—451 454 475
Onsager, L.      440 706
Onsager, L., de Haas — van Alphen effect      433
Onsager, L., superconductivity      796
Onsager, L., two-dimensional Ising model      682
Open orbits      430 460 461
Oppenheimer, J.R.      77 203 226
Optical activity      38
Optical branch      311
Optical gap      see "Energy gap"
Optical mass      642
Optical transitions      183
Optical transitions, direct      588—589
Optical transitions, Franck — Condon effect      628—632
Optical transitions, indirect      589—591
Optical transitions, metals      646—649
OPW      see "Orthogonalized plane waves"
Orbach, R.      753 781
Order parameters      100
Order parameters, liquid crystals      109
Order parameters, liquids      100
Orientational order, nematics      108
Orientational order, two dimensions      355
Oron, A.      410
Orowan, E.      345 374
Orthogonalized Plane Waves      230
Osakabe, N.      743 840
Osheroff, D.D.      404 410
Osmotic pressure      384
Ostlund, N.S.      227
Otnes, K.      340
Ott, H.R.      773 781
Ozawa, S.      478
P (phosphorus) in silicon      489
p, $p_{l}$ , constant in LMTO method      244
P, $P_{l}$ , Legendre polynomial      243
P, $\hat{P}$ , momentum operator      156
p, $\vec{p}$ , dipole      265
P, $\vec{P}$ , polarization      37
p, atomic orbital      233
P, bcc Brillouin zone symmetry point      171
p, integer      40
P, polarization factor      60
P, pressure      114
P, stacking period      71
PAA      108
Packing fraction      39
Pais, A.      706
Pake, G.E.      706
Palevsky, H.      340
Palm, J.      607
Pan, S.      794
Pandey, K.C.      658 668
Pantelides, S.T.      516
Paraelectric      610
Paramagnetism      672 677 786
Parisi, G.      691 706
Park, R.M.      607
Parks, R.D.      839 840
Parr, R.G.      220 226 227
Parrinello, M.      238 258
Parrot, J.E.      479
Participation ratio      511
Paskin, A.      705
Pattern formation      97
Patterson function      63
Patterson, A.L.      63 68
Patthey, F.      653 668
Pauli exclusion principle      135 138 205 219 246 453
Pauli paramagnetism      718—719
Pauli, W.      247 259

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