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Sernelius B.E. — Surface Modes in Physics
Sernelius B.E. — Surface Modes in Physics



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Название: Surface Modes in Physics

Автор: Sernelius B.E.

Аннотация:

Electromagnetic surface modes are present at all surfaces and interfaces between material of different dielectric properties. These modes have very important effects on numerous physical quantities: adhesion, capillary force, step formation and crystal growth, the Casimir effect etc. They cause surface tension and wetting and they give rise to forces which are important e.g. for the stability of colloids.
This book is a useful and elegant approach to the topic, showing how the concept of electromagnetic modes can be developed as a unifying theme for a range of condensed matter physics. The author concentrates in finding out the basic origin of the force and how they are developed from the collective excitations of the solids. Different materials are treated, e.g. metals, semiconductors, plasmas, liquids and gases all with different collective modes. In close relation to the theoretical background, the reader is served with a broad field of applications. The book serves readers who are concerned with applications to real world problems with a deep knowledge on surface modes, and inspires new developments of the field.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2001

Количество страниц: 363

Добавлена в каталог: 23.03.2006

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
2D (two-dimensional)      126 154
ABCs      305
Absorption      48
Absorption band      44
Active side      106
Additional boundary conditions      305
Adhesion      232 236
Adhesion, work of      232 235
Aerogel      318
Aerosol      317
Aluminum      39 40 72
Analytic continuation      205
Anions      321 324 328
Arago, D. F.      315
Arakawa, E.      165
Argument principle      198 209 210
Ashcroft, N. W.      77
ATR      306 307 313
ATR, angle scan      311—313
ATR, frequency scan      310 311 313
Attenuated total reflection      306 307 313
Axilrod — Teller interaction      177
Axilrod, B. M.      196
Back-bending      300 313
Beryllium      293
Bessel equation      283
Bessel equation, modified      272 283
Bessel functions, cylindrical      273
Bessel functions, modified      187 272
Bessel functions, spherical      261
Bj$\ddot{o}$rk Patrik      165
Boer — Hamaker constant      190 223—225 252
Boer — Hamaker constant,      253 347 350 351 357
Boer, J. H.      196
Boltzmann constant      53 192
Boltzmann equation, generalized      57
Bostr$\ddot{o}$m      165 256
Brewster modes      298 300 312
Brillouin zone      290
Brownian motion      57 320 321 323 328 360
Bulk modes      17
Cadmium sulfide      73 114 285
Capacitance of the double layer      333 335 337
Capillary rise      244 245 247
Carotenuto, L.      284
Casimir force      97 138 154 157 158 190 207 208 212 220
Casimir force, finite temperature      142 229 230
Casimir force, zero temperature      139
Casimir — Polder interaction, see also Casimir force      207 208
Casimir, H. B. G.      138 165
Catalytic effects      179
Cations      321 324 328
Causality      68 76
CEM      154 158 163 165
Cerenkov radiation      73
Chapman, D. L.      360
Characteristic integral      186 217
Charge density      18
chemical potential      192 193 339
Chen, F.      165 256
Chiao, R. Y.      77
Chu, S.      77
Classical electron radius      80
Coagulation      320
Coalescence      269 320
Coalescence, non      269
Cohesion      232 236
Cohesion, work of      232
Colloid      317—321 324 329 335 336 339 349 352 356 359 360
Colloid, stability of      138 317 319—321 324 339 345 349 350
Conductivity      18
Constituent particles      80
Constitutive relations      18 19
Continuous phase      317
Contour, finite temperature      210 211
Contour, integration in complex frequency plane      198
Contour, zero temperature      199 201
Convolution integral      19
copper      45
Correlation energy      79 93 94 97
Correlation energy method      154 158 163 165
Correlation functions retarded      31 204
Correlation functions retarded, time ordered      93 204
Counter ion      321 323 324 328 335 337
Coupling constant      92 94 96
Craig, R. A.      165
Current density      18
Current drag      154
Cylinder      186 187 271
Cylindrical coordinates      271
Cylindrical coordinates, parabolic      277
Damping      35
Debye rotational relaxation      56
Debye — H$\ddot{u}$ckel, length      324
Debye — H$\ddot{u}$ckel, screening      323 329
Debye, P.      77
Dell’ Aversana, P      284
Density matrix      82
Depeptization      321
Determinant      155 174 175 204
Determinant, Slater      83
Dielectric function      18 31 34 93 95 96
Dielectric function for insulator      42 287
Dielectric function for metal      45 151
Dielectric function for plasma      51
Dielectric function for water      60 222—224
Dielectric function, relation to conductivity      21
Dielectric matrix      155
Diffuse layer      321 323 328 334 335 337
Dipole moment      33
Dipole moment, permanent      54 168 170 171
Dipole moment, time dependent      202
Dipole-dipole interaction      175 177 181 184
Dispersed phase      317
Dispersion of light      24 34 35 43 44 69 70 107 108 114 116
Dispersion, anomalous      44 57 291
Dispersion, exciton      304
Dispersion, relations, Kramers Kronig      31 221 287
Dispersion, spatial      302—305
Dissipation      57
Distribution function      57
Distribution function, Boltzmann      193
Double layer      317 320 321 323 333 335 336 339—341 359
Double layer, flat      324 329 337 342 347 349
Double layer, spherical      326 336 355
Drude tail      50
Earthquake      285 307 314
EDGE      277
Effective area      182 187 188
Effective separation      225
Ehrenreich, H.      77
Eigenvalue equation      175
Electric displacement      18
electric field      18
Electrolytes      320
Emulsion      317
Emulsion, solid      317
Enders, W.      77
Energy density      79 109
Energy flux      109
Enthalpy      209
Equation of continuity      18
Equation of continuity Fourier transformed      21
Equation of motion      32 51 174 202
Equation of state      173
Equation of state, ideal gas      173
Equation of state, Van der Waals      192
Euler — Lagrange equation      248
Euler — Maclaurin summation formula      141
Evanescent modes      297 298 300
Exchange energy      79 81 85 90 93 94 97
Exchange hole      84 85 87 88
Exchange-correlation hole      88
Exciton, Frenkel      303
Exciton, Mott      303
Exciton, Wannier      303
Exner, F.      315
f-sum rule      37—39 45 97 161
Fano modes      298 300
Fermi — Dirac occupation number      93
Fermi, sphere      89
Fermi, temperature      53
Fermi, wave vector      37
Flocculation      320 322 323 336 353 354 358 359
Foam      317
Foam, solid      317
Force, dispersion      168
Force, electromagnetic      167
Force, fundamental      167
Force, gravitational      167
Force, hydration      320
Force, induction      168
Force, nuclear      167
Force, nuclear, strong      167
Force, nuclear, weak      167
Force, orientation      168
Force, steric      320
Fourier transform      18 363
Free energy, Gibb’s      193 209
Free energy, Helmholtz      142 170 171 209
Frequency summations      211 221 222 229 230
Fresnel’s equations      305 307—309
Friction      32 57
Friction, coefficient of      51 53
Friction, coefficient of mutual      51
Friction, inner      57
Gallium arsenide      154 285
Gauge, Coulomb or transverse      24 26 258
Gauge, Lorentz      24 28
Gauge, Lorentz, generalized      28
Gelatin      318 320
Gold      45
Gouy and Chapman theory      328 329 336
Gouy layer      337
Gouy, G.      360
Gradient, in cylindrical coordinates      271
Gradient, in parabolic cylindrical coordinates      277
Grating      297
Grigoriev, I, S.      256
Ground-state-energy-theorem      92
Halevi, P.      315
Half-space      186 187
Halo      314
Hamaker constant      190 223—225 252 253
Hamaker constant,      347 350 351 357
Hamaker, H. C.      196
Hankel functions      283
Hankel functions, cylindrical      273
Hankel functions, spherical      261
Harris, B. W.      165 256
Hartman, T. E.      77
Hartree Fock approximation      81 84—88 91 92
Heaviside unit step function      38
Heitmann, W.      77
Helium, liquid      197 253
Hermitian function      278
Hertz, H.      17 29
HF      81 84—88 91 92
Homogeneous phase      317
Hooke’s law      32
Hopfield, J. J.      315
Hydrophilic      319
Hydrophobic      318 319
Inagaki      165
Instantaneous interaction      26
insulators      32
Interface flat      99
Interface flat, non-planar      257
Internal energy      209 212 221 226
Ion      170 177
Israelachvili, J.      256
Jackson, J. D.      361
Jellium model      81 147
Khare, V.      315
Kleppner, D.      165
Kohn, W.      147 165
Kretschmann configuration      307
Kwiat, P. G.      77
Lamoreaux, S. K.      165 256
Lang, N. D.      147 165
Langbein, D.      196
Laplace’s equation      258
Laplacian, in cylindrical coordinates      271
Laplacian, in parabolic cylindrical coordinates      277
Larsen, A. E.      360
LC circuit, oscillations in      145
Lifshitz, E.      7
Lipophilic      319
Lipophobic      319
Lithium      208 212
Local approximation      18
London approximation      176 179 252 254
London, F.      173 196
Longitudinal field component      22
Lucas, A. A.      146 165
Lyddane — Sachs — Teller relation      42 289
Lyophilic      319
Lyophobic      319
Macroscopic objects      180
Magnetic field      18
Magnetic induction      18
Magnetic permeability      18
magnetization      19
Mahan, G. D.      165 196
Many-body theory      79 95
Maradudin, A. A.      306 315
Marangoni convection      270
Massless bosons      79
Maxwell, J. C.      17 29
Maxwell’s equations      18
Maxwell’s equations, Fourier transformed      21
Maxwell’s equations, in vacuum      64
Meilikhov, E. Z.      256
Meniscus      244 251
Mercury      149 151 153 233
Mermin, N. D.      77
Milk      318
Mode summation method      154 164 165
Models, dielectric function      34
Models, Drude’s classical      36 151
Models, generalized      36
Models, Lorentz’ classical      32 173
Mohideen, U.      165 256
Moment of inertia      57
MSM      154 164 165
Needle      282
Neitzel, G. P.      284
Newton’s Second Law      32
Nimtz, G.      77
Nordling, C.      165
Octupole      184
Ohm’s Law      18 19
Oleophilic      319
Oleophobic      319
Optical constants      60
Optical glory      285 314
Oscillator strength      38
Ostwald ripening      244 320
Oswald ripening      244
Otto configuration      307 310
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