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Bell J., Kearsley M., Pitaevskii L. — Course of Theoretical Physics, Volume 8, Volume 8, Second Edition: Electrodynamics of Continuous Media
Bell J., Kearsley M., Pitaevskii L. — Course of Theoretical Physics, Volume 8, Volume 8, Second Edition: Electrodynamics of Continuous Media



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Íàçâàíèå: Course of Theoretical Physics, Volume 8, Volume 8, Second Edition: Electrodynamics of Continuous Media

Àâòîðû: Bell J., Kearsley M., Pitaevskii L.

Àííîòàöèÿ:

What can I say? There are 9 copies of this book in the library of my university and 8 of them have been checked out. The only one left is a reserved copy. And right now it's in the middle of a summer vacation! So many things that I want to know can be found in this book: the difference between Kerr effect and Faraday effect, the magneto-electric tensor, magnetic symmetries of crystals... etc. The explanations are usually very compact but extremely clear. Once many years ago I was frustrated at being unable to find a "physicist's description" of the galvanic cell. Finally, after searching many books and papers, I found a most satisfying explanation, exactly the way I needed it, in this book. It is an invaluable "reference" (but not textbook) for researchers working on material science, light-matter interactions, and related fields.


ßçûê: en

Ðóáðèêà: Ðàçíîå/

Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö

ed2k: ed2k stats

Èçäàíèå: 2nd

Ãîä èçäàíèÿ: 1984

Êîëè÷åñòâî ñòðàíèö: 474

Äîáàâëåíà â êàòàëîã: 22.04.2015

Îïåðàöèè: Ïîëîæèòü íà ïîëêó | Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
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Ïðåäìåòíûé óêàçàòåëü
Abraham force      260 278
Absorption coefficient      285
Absorption of electromagnetic waves by small particles      322—3
Absorption, two-photon      393
Acceleration, excitation of currents by      222—4
Adiabatic invariant      277
Airy function      305
Alfven discontinuity      242
Alfven velocity      237
Alfven waves      237 239—40
Angular phase      159
Anisotropic media, electromagnetic waves in (XI)      331ff.
Antiferromagnetic Curie point      166n.
Antiferromagnetic vector      167
Antiferromagnets      131—2 166—72
Atomic form factor      449
Azimuthal distribution      234
Barnett effect      129
Biaxial crystals      54 341—7
Bicritical point      170
Binormal      343
Biot and Savart's law      110
Biradial      343
Birefringence      see Double refraction
Bragg and Vul'f's equation      442
Bragg's method      446n.
Brewster angle      297
Capacitance      4 7—8 17—19 214—17
Capacitance coefficients      4—5 7
Capacitance mutual      7 15—16
Capacitance of conducting ellipsoid      22—3
Capacitance of conducting sphere      57
Capacitance of ring      8
Causality      280 281
Charge distribution on conducting disc      25
Charge distribution on conducting ellipsoid      22 26
Charge distribution on conductors      1ff. 16
Charge reservoir      30
Charges extraneous      35 258
Charges in a dielectric      62
Cherenkov radiation      406—8
Collinear antiferromagnet      132
Conduction current density      108
Conductivity electrical      86
Conductivity tensor      87 90
Conductors      1ff.
Conductors cylindrical      14 15—16 17 112 206—7
Conductors disc-shaped      25 26—7
Conductors electrostatic field of      ff.
Conductors electrostatics of (I)      iff.
Conductors electrostriction of      31—2
Conductors ellipsoidal      19—29
Conductors forces on      29—33 127—9
Conductors motion in a magnetic field      217—22 225—56
Conductors motion in a magnetic field turbulent      253
Conductors spherical      9—10 14 32 57 88—9 205—6 207 221
Conformal mapping      12
Conformal mapping method of      11—12
Conical refraction external      345
Conical refraction internal      343
Contact potential      93
Cotton—Mouton effect      352
Critical field      185—9
Critical indices      162 171
Critical opalescence      433—5
Critical state      77
Cross-over critical index      171
Crystals biaxial      54 341—7
Crystals dielectric properties of      54—9 331—3
Crystals enantiomorphic      364
Crystals magnetic properties of      130—5
Crystals natural optical activity of      362—6
Crystals piezoelectric      70
Crystals pyroelectric      56
Crystals uniaxial      55 339—41
Crystals uniaxial negative      339
Crystals uniaxial positive      339
Crystals X-ray diffraction in      see under Diffraction
Curie point antiferromagnetic      166n.
Curie point ferromagnetic      135
Curie—Weiss law      137
Current boundary conditions for      86—7
Current conduction      108
Current density      86 108
Current density surface      107
Current eddy      201
Current electric      1
Current excitation by acceleration      222—4
Current in a crystal      398
Current in a moving conductor      217—22
Current linear      110; see also Linear current
Current molecular      108n.
Current steady (III)      86ff.
Current steady (III) magnetic field of      107—13
Current superconductivity      182—5
Current surface      107
Curvilinear coordinates      452—3
Cylinder conducting      14 15—16 17 112 206—7
Cylinder dielectric      40 53
Debye and Scherrer's method      446n.
Debye relaxation time      432
Debye-Waller factor      450
Defocusing medium      379
Demagnetizing factors      41n. 182
Depolarizing factors      24 321
Depolarizing field      41
Detailed balancing      419
Dielectric axes, principal      334
dielectric constant      see Permittivity
Dielectric crystals      54—9 331—3
Dielectric cylinder      40 53
Dielectric disc      40 52—3 57
Dielectric ellipsoid      39—42 52
Dielectric fluid, forces in      59—64
Dielectric permeability      see Permittivity
Dielectric polarization      34
Dielectric solid, forces in      64—7
Dielectric sphere      39—40 42 56 57 67 263—4
Dielectric susceptibility      36
Dielectric susceptibility non-linear      374
Dielectric susceptibility sign of      58—9
Dielectric tensor      54; see also Permittivity tensor
Dielectrics      1 34
Dielectrics electrostatics of (III)      34ff.
Dielectrics electrostriction of isotropic      51—4
Dielectrics moving      260—4
Dielectrics moving boundary conditions      262
Dielectrics polarized      34
Dielectrics thermodynamics of      44—8
Dielectrics total free energy of      48—51
Diffraction by a plane screen      327—30
Diffraction by a wedge      323—7
Diffraction of X-rays in crystals (XVI)      439ff.
Diffraction of X-rays in crystals (XVI) general theory of      439—45
Diffraction of X-rays in crystals (XVI) temperature dependence of      449—51
Diffusion phenomena      102—4
Dipole moment of conducting cylinder      17
Dipole moment of conducting disc      26—7
Dipole moment of conducting sphere      14
Dipole moment of conductor      6
Dipole moment of dielectric      35 50
Director      70
Disc conducting      25 26—7
Disc dielectric      40 52—3 57
Disc superconducting      185
Discontinuities in a magnetic fluid      240—53
Discontinuity Alfven      242
Discontinuity contact      241
Discontinuity rotational      242
Discontinuity tangential      241
Discontinuity tangential stability of      242—4
dispersion      257
Dispersion form of scattering line      432
Dispersion frequency      358
dispersion relation      236 266
Dispersion spatial (XII)      358ff.
Dispersion time      358
Displacement current      258
Dissipative function      216
Dissipative processes in magnetohydrodynamics      228—30
domain walls      147—153
domains      80—1 143 147—51;
Domains of closure      154
Doppler broadening      359
Double circular refraction      351
Double layer      93
Double refraction      340
Double refraction in an electric field      347
Dynamical theory of scattering      443n.
Dzyaloshinskiy field      175
E waves      305 314
E.M.F.      94
Easy magnetization, direction of      139
Easy-axis type      139
Easy-plane type      139
Eddy currents      201
Eikonal      290 335
Einstein—de Haas effect      129
Elastic constant tensor      69
Elastic—optical constants      355
Electric current      1; see also Current
Electric field, static      see also Electromagnetic field
Electric field, static in dielectrics      34—5
Electric field, static in dielectrics boundary conditions      35
Electric field, static in dielectrics thermodynamics of      44—8
Electric field, static of conductors      1ff.
Electric field, static of conductors boundary conditions      2—3 37 86
Electric field, static of conductors energy of      3—8
Electric induction      35
Electric losses      274
Electric moment      35
Electric-type waves      see E waves
Electrocaloric effect      52 53
Electrocapillarity      96
Electrodynamics, macroscopic      1
Electromagnetic field boundary conditions      294 301 310
Electromagnetic field in moving media      260—4
Electromagnetic field quasi-static (VII)      199ff.
Electromagnetic field quasi-static (VII) in dielectrics      257—60
Electromagnetic field variable      264ff.
Electromagnetic shock wave      389
Electromagnetic wave equations (IX)      257ff.
Electromagnetic waves      257ff.
Electromagnetic waves absorption of, by small particles      322—3
Electromagnetic waves in anisotropic media (XI)      331ff.
Electromagnetic waves in anisotropic media (XI) extraordinary      340
Electromagnetic waves in anisotropic media (XI) ordinary      340
Electromagnetic waves in resonators      310—13
Electromagnetic waves plane homogeneous      285
Electromagnetic waves plane in a transparent medium      284
Electromagnetic waves plane in an absorbing medium      285—6
Electromagnetic waves plane in anisotropic media      333—8
Electromagnetic waves plane inhomogeneous      284
Electromagnetic waves plane monochromatic      283—6
Electromagnetic waves propagation of (X)      290ff.
Electromagnetic waves propagation of (X) in an inhomogeneous medium      304—10
Electromagnetic waves propagation of (X) in waveguides      313—19
Electromagnetic waves reflection and refraction of      293—300 303—4
Electromagnetic waves scattering of (XV)      413ff.
Electromagnetic waves scattering of (XV) by small particles      319—22
Electromagnetic waves strong      388—91
Electromotive force      94
Electrostatic induction coefficients      4—5
Electrostatics of conductors (I)      1ff.
Electrostatics of dielectrics (II)      34ff.
Electrostriction of conductors      31—2
Electrostriction of dielectrics      51—4
Ellipsoid conducting      19—29
Ellipsoid dielectric      39—42 52
Ellipsoid ferromagnetic      146—7
Ellipsoid magnetic      107
Ellipsoid superconducting      193
Ellipsoid tensor      55
Ellipsoidal coordinates      19—29
Energy flux (Poynting vector)      111 203 260 272 291 295 300
Energy flux (Poynting vector) in a plane wave      285 333
Energy flux (Poynting vector) in a resonator      311
Energy flux (Poynting vector) in a waveguide      315
Energy free self-      118
Energy interaction      118
Energy magnetostatic      158
Energy non-uniformity      147
Energy of a system of currents      118—21
Energy of conductors      3 111
Energy of dielectrics      45—51 74—7
Energy of emergence of domains      154
Energy of fields in dispersive media      272—6
Energy of magnetic substances      116—17 138—40 144
Ettingshausen effect      102
Euler equation      225
Exciton branch      369n.
excitons      369n.
Extinction coefficient differential      420
Extinction coefficient total      420
Extraneous charges      35 258
Extraordinary waves      340
Faraday effect      351
Faraday effect inverse      353
Faraday's law      219
Fast particles, passage of, through matter (XIV)      394ff.
Fermat's principle      291
Ferrimagnetic crystals      132
Ferroelectric axis      77
Ferroelectrics      77—85
Ferroelectrics domains in      80—1
Ferroelectrics improper      83—5
Ferromagnetic resonance homogeneous      270
Ferromagnetic resonance inhomogeneous      270
Ferromagnetism (V)      130ff.
Ferromagnetism (V) weak      172—6
ferromagnets      131
Ferromagnets domain structure of      142—4 147—59
Ferromagnets easy-axis type      139
Ferromagnets easy-plane type      139
Ferromagnets fluctuations in      162—6
Ferromagnets near the Curie point      135—8
Fizeau effect      293n.
Fluctuation region      162
Fluctuations in ferromagnets      162—6
Fluctuations of anisotropy      428
Focusing medium      379
Fresnel ellipsoid      338
Fresnel's equation      335 341
Fresnel's formulae      295
Galvanic cell      94
Geometrical optics      290—3
Group velocity      237 291 335
Gyration vector      348 354—5 363
Gyromagnetic coefficients      129
Gyromagnetic phenomena      129
Gyrotropic media      336n. 348
Gyrotropy, natural      363
H waves      305 306—7 314
Hall constant      91
Hall effect      91
Hartmann number      231
Helicoidal magnetic structure      178—9
Hydromagnetic waves      235—53
Hydromagnetic waves absorption of      239
Hysteresis      142
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