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Ablowitz M.J., Segur H. — Solitons and the Inverse Scattering Transform
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Название: Solitons and the Inverse Scattering Transform
Авторы: Ablowitz M.J., Segur H.
Аннотация: A study, by two of the major contributors to the theory, of the inverse scattering transform and its application to problems of nonlinear dispersive waves that arise in fluid dynamics, plasma physics, nonlinear optics, particle physics, crystal lattice theory, nonlinear circuit theory and other areas. A soliton is a localised pulse-like nonlinear wave that possesses remarkable stability properties. Typically, problems that admit soliton solutions are in the form of evolution equations that describe how some variable or set of variables evolve in time from a given state. The equations may take a variety of forms, for example, PDEs, differential difference equations, partial difference equations, and integrodifferential equations, as well as coupled ODEs of finite order. What is surprising is that, although these problems are nonlinear, the general solution that evolves from almost arbitrary initial data may be obtained without approximation.
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Рубрика: Физика /
Статус предметного указателя: Готов указатель с номерами страниц
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Год издания: 1981
Количество страниц: 425
Добавлена в каталог: 13.12.2009
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Предметный указатель
Higher order mKdV 12 13 217
Higher order NLS 12 217
Hilbert space ( ) 339 354 357 359 363 374 375 390
Hilbert transform 26 204 211 277
Hill, A.E. 307
Hille, E. 235
Hill’s equation 136
Hirota, R. 40 114 115 151 161 171 172 175 179 181 182 183 185 187 190 200
Hirota’s method 34 40 171—191
Honerkamp, J. 342
Hopf, E. 154
Hoppenstaedt, F. 166
Hughes, B.A. 312
Hui, W.H. 324
Hyperelliptic function 134 139 153
Ibragimov, N.J. 156 169 171
Ichikawa, Y.H. 14 54 275 277
Ill-posed problem 354 386
Ince, E.L. 234 235 240 241 266
Index of refraction 303 313 329
Inhomogeneous broadening 330—333 336 379 380 382
Initial data 68 69 75 76 79 80 90 353 358 368 369 373 390
Integrability 58 65 89 157 162 164 171 296 338
Integral representation for eigenfunctions 20
Intermediate long wave equation 203 211 212
Internal wave 282 290 292—297 308—312 346
Invariant of the motion 206 (see also “Conserved quantity”)
Inverse scattering 15—28 48 49 52 151—157 161 163 170 172 188 234—239 243 248—250 259 265—268 294 306—311 315—317 322—324
Inverse scattering transform (IST) 1 7 8 9 36 46 48 151 152
Inverse scattering transform (IST) and bilinear forms 188
Involution 64 65 89
Ion-acoustic waves 97 190
Ising model 248
Isospectral flow 200 206
Isotropic dielectric material 303—314
Israeli, M. 385
Its, A.R. 134 147 191 199 232
Izutsu, M. 190
Jacobian elliptic function see “Elliptic function”
Jacobson, N. 167 169
James, I.N. 292 327
Jaulent, M. 28
Jimbo, M. 238 248
Johnson, R.S. 250
Joseph, R.I. 211 294
Josephson junction 327
Jost function 15 99 124 132 217
Joyce, T.M. 310 311
Kac, M. 114 115 116 133 134
Kadomtsev — Petviashvili equation (K—P) 113 134 188 191 197 199 200 228 229 231 259 266 268 277 289 290 386
Kadomtsev, B.B. 250 289
Kakutani, N. 275 277
Karpman, V.I. 250 252 253 254 275 277 314
Kashiwara, M. 248
Kaup, D.J. 1 8 9 14 19 42 44 45 46 47 48 51 85 93 95 99 101 107 110 159 161 163 172 233 238 250 252 253 255 301 306 330 334 335 336 341 369
Kawai, T. 248
Kay, I. 28 40
Kazhdan, D. 152
Keener, J.P. 250
Kelley, P.L. 315 316
Kerr effect 314
Kerr solution in relativity 339
Keulegan, G.H. 285 295 296
Khokhlov, R.V. 302 307 308 314 316 317
Kinetic theory in one dimension 374
Kink 35 36 349
Kleinman, D.A. 302 307
Knickerbocker, C.J. 255
Ko, D.R.S. 211 294 311 312
Ko, K. 250
Kobayashi, K.K. 190
Kodama, Y. 41 51 56 58 172 215 216 250 252 260 337
Konno, K. 14 54 159
Koop, C.G. 296
Korepin, V.E. 341
Korteweg — de Vries equation (KdV) 3—14 30 34 38—43 46 47 52 56 58 64 67 68 79—86 91 117 134 138 142 144 146 148 149 153—163 166 172—174 179 184 185 188 191 194 196 199 203 209 211—217 223 233 246 249—262 265—271 276 278 281—289 292—299 318 344 363
Korteweg — de Vries equation (KdV) with perturbations 250—255
Korteweg, D.J. 3 4 277
Kostant, B. 152
Kovalevskaya 240
Krichever, I.M. 134 147 153
Kritz, A.H. 387
Kruskal, M.D. 1 4 5 6 7 8 15 38 41 47 52 55 68 80 149 159 168 170 203 216 279 282 337 339 389
Kubota, T. 211 294
Kudryavesev, A.E. 38
Kuehl, H.H. 250
Kulish, P.P. 341
Kuperschmidt, B.B. 89
Kuznetsov, E.A. 233
Ladik, J.F. 38 52 114 115 121 122 124 337
Laitone, E.V. 277
Lake, B.M. 311 325
Lamb, G.L. 159 164 169 171 330 331 334 335 337
Lamb, H. 1 2 277 293 294
Landau damping 334 373 374 377
Landau, L.D. 378 390
Landauer, R. 314
Langmuir wave 97 322
Laser 302 305—308 316 317
Laurent series 241 243 247
Lax, P.D. 4 8 9 14 239 359
Lax’s method 9 14 239
Lebedev 153
Lee, Y.C. 152 204 206 211
Legendre equation 269
Leibovich, S. 252
Leone, C. 296
Level degeneracy 329 334 336
Levitan, B.M. 10 21
Lewis, J.E. 311
Lie algebra 163 167—171
Lie algebra, abelian 168—170 263 264
Lie algebra, non-Abelian 168
Lie — Baecklund transformation 156
Lieb, E.H. 341
Liebbrandt, G. 190
Light cone 91
Lighthill, M.J. 375
Linear pseudopotential 165 169—171 263
Linearized dispersion relation 179
Lininger, W. 341
Liouville’s theorem 135 139 155
Liu, C.S. 152
Local conservation 105
Long wave 279 287—289 292—297 343—345
Long wave — short wave interaction 77 311
Long, R.R. 297
Longuet-Higgins, M.S. 323
Lonngren, K. 1
Love, A.E.H. 342
Lui, A. 348
Lukashevich, N.A. 246
Lump solution 113 191 197 198 232 289
Lund, F. 52
Ma, Y.C. 134 296 312
Magnus, W. 136 137
Main spectrum 13 136 137
Maison, D. 337 338
Makhankov, V.G. 37 275 277
Manakov, S.V. 21 56 58 68 71 87 90 93 97 99 110 114 116 132 191 199 232 290 341
Mander, D.W. 311
Manin, Yu.I. 89 153
Manley — Rowe relation 306 307
Mapping of functions 66 67 86
Marchenko, V. 15 147
Markovski, B.L. 152
Martin, D.V. 323
Maslov, E.M. 250 252 253 254 275 277 314
Mass of a wave 348
Mathematical induction 172 178
Matsubara, T. 277
Mattar, F.P. 337
Matveev, V.B. 134 147 191 199 232
Maxwell — Bloch equation 331 341
Maxwell’s equation 302 330
Maxworthy, T. 282 297 299 300
McCall, S.L. 330 332 335 336 337 350
McComas, C.H. 309
McCoy, B.M. 248
McEwan, A.D. 311
McGuire, J.B. 341
McKean, H.P. 134 137 153
McLaughlin, D.W. 58 88 147 148 168 170 250 327
McLeod, J.B. 236 238 239 244
Meiman, N.N. 147
Metric tensor of a surface 320 338
Mikhailov, A.V. 99 168 233 267
Miles, J.W. 68 81 168 189 232 266 267 277 289 297
Miura, R.M. 1 3 6 7 52 55 79 89 159 266 363
Miura’s transformation 6 7 52 79 84 86 153 160 215 266 363
Miwa, T. 248
Modified Korteweg — de Vries equation (mKdV) 6 7 8 9 13 21 52 75—79 84—86 121 153 155 163 175 179 181 191 197 201 215 217 219 227 262 265 276 292—296 299 329 344 363
Modulated multiperiodic solution 148
Moment of inertia 258
Momenta, generalized 59 66
Monochromatic wave 90 318
monodromy 135 240 248 249
Monodromy coefficient 40 41 42
Monodromy matrix 135
Mori, Y. 248
Morikawa, G.K. 3
Moroz, I.M. 292 327
Morris, H.C. 161
Morse, P.M. 366
Morton, K.W. 352
Moser, J. 132 191 196 203 206 209
Moses, H.E. 28 40
Motion of poles see “N-body problem”
Mott, G. 342 344
Multidimensional scattering problem 110—114
Multidimensional Schroedinger scattering (eigenvalue) problem 114
Multiple scales method 250—261
Munk, W. 309
Musher, S.L. 114
N-band potential 134 146 148 150 152
N-body Hamiltonian system 205 210
n-body problem 203—217
N-soliton solution 34 38 40 41 42 151 159 172—175 179—192 195 197 211 212 239 265 289 323
Nakamura, A. 172 190 216
Natural stability 123
Nemytskii, V.V. 134
Neugebauer, G. 337
Neumann series 17 100
Neveu, A. 341
Newell, A.C. 1 8 9 19 42 45 46 47 48 56 58 64 67 68 85 110 159 232 239 240 248 255 301 313 334 335
Newstein, M.C. 337
Newton, R.G. 15 114
Nizhik, L.P. 110
Non-Abelian pseudopotential 151 163 170 171 265
Nondispersive problem 107
Nonlinear Fourier analysis 45—51
Nonlinear instability 109
Nonlinear ladder network 183
Nonlinear optics 301—308 311—318 329—336
Nonlinear Schroedinger equation (NLS) 8 9 12 28 32 33 46 134 181 182 217 238 242 243 256—260 265 270—273 312—326 338 340
Nonlinear Schroedinger equation (NLS) in two dimensions 258 260 271
Nonlinear Schroedinger equation (NLS) with dissipation 256 270 274 “Higher “Schroedinger
Nonlinear Schroedinger equation (NLS), differential-difference form 120 131
Normalizing coefficient 27—31 106 133
Novikov, S. 134 146 147 153
Oberman, C. 389
Oikawa, M. 190
Oishi, S. 190
Olbers, D.J. 308
Olshanetsky, M. 206
Olver, F.W. 356
Olver, P.J. 236 238 239
Ono, H. 191 202 203 294 318
Onsager, L. 203
Orszag, S.A. 385
Orthogonality condition 43—45 48—52 271 273 274
Osborne, A.R. 296
Ott, E. 255
Oxford, S. 341
p-type 235—243 250 266—268 316
Painleve conjecture 152 236 243 266 268 293
Painleve function 203
Painleve property 151 234—239 296 315—317 322
Painleve transcendent 152 197 228 233 236 238 240 243 248
Parametric oscillation 307
Parseval’s relation 25
Partial difference equation 115 122 124 151
Partial difference equation, nonlinear Schroedinger 123 131
Partial differential equation (PDE) 151 153 157 161—163 179 233—239 243 250 269 352 356
Pasta, J. 3 4
Patel, C.K.N. 335
Pedlosky, J. 297
Peek, B.M. 300
Pempinelli, F. 191 246 248
Pereira, N.R. 204 206
Perelomov, M. 206
Periodic boundary condition 134—148 324
Periodic inverse scattering 138—142
Periodic multiple wave solution 190
Permutability theorem 159
Permutation relation 184 187 265
Perturbation 250—261 327 341 342
Peters, C.W. 307
Petviashvili, V.I. 250 289
Phase shift 5 40 41 75 198 199 265 299 300
Phase shift of solitons 40—42 86
Phillips, O.M. 290 296 301 309 310 312 348
Pirani, F.A.E. 156
Piston 283 285 288
Pitayevsky, L.P. 1
Pogorzelski, W. 17 24
Poincare recurrence see “Recurrence”
Poisson bracket 60 64 86 87 339
Pokhil, G.P. 341
Polarization 301 331 332 347 379 382
Pole 239 244 247 248
Pole expansion 203—216 (see also “N-body problem”)
Pole, movable 241 243
Potential 66 158 166 170 277 292 341 “Resonance
Projection operator 26
Prolongation structure 161 162
Pseudopotential 152 161—171 262 263 265 “Nonlinear
Pseudospherical surface 328 329 338
Pulse, 334—336
Pulse, 334—336 349 350
Pulse, dark see “Envelope hole soliton”
Quadratic forms, fundamental 328 329
Quadratic interaction 301 (see also “Three-wave interaction equation” “Resonant
Quantization 149 340 341
Quantum field theory 248 338
Quartic resonance 96
Radiation 68 75 83 337
Ramanathan, G.V. 374 387
Ramani, A. 40 217 218 219 236 238 239 240 243 244 248 268
Randall, G.D. 252
Random wave 312
Rational exponential soliton 233
Rational solution 191—202 265
Rayleigh, Lord (J.W. Strutt) 279
Rebbi, C. 342
Recurrence 4 150 316 355 356
Recurrence time 150
Recursion relation 246
Redekopp, L.G. 97 232 268 296 297 299 300 312 318 320 322
Reflection coefficient 27—30 38 51 52 79 83 91 109 132 133 286
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