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| Mason W.P. (ed.) — Physical Acoustics. Principles and Methods (volume 15) |
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| Предметный указатель |
Egle, D. M. 353 356
Einspruch, N. G. 273 292
Einstein, A. 41 91
Eisenbud, L. 231 294
Eitzen, D. G. 306 308 312 357
Elastic spheres, scattering from 202—203
Elastic targets, acoustic-wave scattering from 193—240
Elastic-wave scattering, from cavities and inclusions 240—281
Elasticity and Anelasticity in Metals (Zeners) 84
Electrical waves, generation of in early 20th century 22—24
Electroacoustic transfer function  157—158
Electroacoustic transformer ratio 139
Electroacoustical devices, early 35—36
Electroacoustics (Hunt) 88
Electroacoustics, early 20th-century developments in 16—18 22—26
Electrode “mass/electrical loading” 125—126
Electrodes, single and double 125—126
Electrolytic iron, acoustic emission source for 329
Electromagnetic feedthrough 130—131
Electromagnetic scattering, resonances in 285—292
Electromagnetic scattering, theory of 285—289
Electromagnetic scattering, transverse electric and magnetic modes in 287
Electromagnetic transducer 63—64
Electronics industry, acoustic emission testing in 350
Element factor for double electrodes 126
Element factor for generalized circuit model transducer 145
Element factor in crossed-field model 137—140
Elsley, R. K. 334 356
Elwell, C. F. 23 91
Empty-cavity scattering amplitude 275—277
Emulsifying-dispersing action, of ultrasound 56—57
Engan, H. 149 188
Ensminger, D. 68 83 91
Enz, U. 63 91
Erdman, D. C. 77 91
Eringen, A. C. 301 356
Erwin, W. S. 77 91
Esche, R. 66 91
Ethylene diamine tartrate 61
Evans, A. G. 347 356
Eve, A. S. 9 10 91
Ewing, W. M. 279 280 292
Eyring, H. 336 357
Fagen, M. D. 23 36 91
Fano, R. M. 161 188
Faraday, M. 11 91
Faran, J. J. 201 292
Farhan, A. R. 193 218 228 230 292 294
Farnell, G. W. 113 188
Fast gas reactor, sound dispersion in measurement of 41
Fay, H. J. W. 26 27 28 35 51 91
Feit, D. 192 195 199 293
Fekula, R. G. 351 357
Feng, C. 301 356
Fenstermacher, T. E. 162 189
Fessenden oscillator 27 35
Fessenden, H. M. 27 92
Filter insertion loss, in SAW filters 161
Filters, brick-wall 178
Filters, nondispersive bandpass 177—180
Filters, SAW see Surface acoustic wave filters
Finite-amplitude waves 20
Fiorito, R. 193 233 234 235 237 238 239 292 293
Firestone, F. A. 75 76 92
Fisk, C. 347 356
Flame, sensitive 9—13
Flax, L. 193 194 202 204 206 221 227 268 273 274 275 276 277 278 279 280 291 292 293 294
Fleischmann, P. 317 356
Fluid-filled cavities, cylindrical 268—273
Fluids, gas bubbles in 228
Flynn, H. G. 58 66 92
Foley, A. L. 22 92
Fowler, T. J. 296 356
Fox, F. E. 79 92
Frederick, J. 67 92
Free-plate dispersion curves 234—235
Frings, H. 83 90
Frisk, G. V. 207 213 292 293
Fujisawa, K. 339 359
Gahr, S. A. 351 356
Gaines, N. 46 55 92 97
Gajewski, R. 301 359
Galambos, R. 4 27 40 92
Galton whistle 6—7 20 39 61
Galton, F. 5 6 92
Gamier, J. E. 340 356
Gas bubbles in fluids 228—232
Gas bubbles, circumferential wave in 230
Gas current generator 39
Gases, molecular theory of 19
Gastine, M. 287 289 293
Gaunaurd, G. C. 193 218 221 222 223 224 228 231 240 242 245 246 247 249 250 251 252 253 254 255 256 257 258 259 260 261 262 265 266 267 268 281 282 283 284 285 290 291 292 293 294
General Electric Company 22 33 44 67—68
Generalized circuit model, element factor for 145
Generalized circuit model, three-port circuit for 145—146
George, J. 193 202 210 212 218 219 228 229 230 285 286 292 293 294
Gerard, H. M. 102 103 124 125 132 133 134 135 136 137 138 139 142 157 180 185 188 189
Gericke, O. R. 54 92
German GHG system 52
Giacomini, A. 54 92
Giacomini, A. B. 54 92
Giant monopole resonance 262—267
Gibson, R. W. 78 90
Giebe, E. 37 92
Gillispie, C. C. 8 9 10 16 17 20 22 23 24 27 29 35 43 92
Gilman, J. J. 336 356
Gjevik, B. 281 293
Glasses, acoustic emission from 338—339 346—347
Goldsmith, W. 312 356
Goodman, J. E. 70 72 90
Goodrich Company 51
Gorbunov, O. N. 83 92
Gordon, D. 82 83 90 92
Gorskhkov, S. I. 83 92
Graff, K. F. 67 69 92
Graham, L. J. 297 334 356 359
Green, R. E., Jr. 332 333 334 348 349 355 356 358
Greenspan, M. 297 299 301 355
Green’s function in acoustic emission 301—307 312 314
Green’s function, calculated vs. experimentally measured 315
Green’s function, dynamic 313
Green’s function, experimental determination of 315 354
Green’s function, inverse 309
Green’s function, step-function 310
Griffin, D. R. 4 40 52 53 86 87 95
Grobos, S. T. 351 352 357
Grossmann, E. 50 92
Ground loops, in SAW filter 131
Grubinskas, R. C. 54 92
Guthrie, A. N. 85 90
Hamming weighting filter 183 187
Hamstad, M. A. 342 355 357
Hardy, S. C. 301 302 303 304 305 306 307 308 309 310 311 312 557
Harrington, J. B. 180 188
Harris, J. F. 178 188
Hart, S. D. 233 294
Hartmann generator 39—40 61 63
Hartmann generator, improvements in 64
Hartmann, C. S. 102 114 117 120 125 149 162 188
Hartmann, J. 39 92
Harvard University 23
Harvey, E. B. 55 92
Harvey, E. N. 55 66 92
Hastings, C. H. 72 74 76 77 92
Hatano, H. 340 357
Haug, A. J. 193 268 273 293
Hayes, H. C. 29 92
Hearing, upper limit of 20—21
Heat conduction, sound and 15
Heckl, M. 207 292
| Heiple, C. R. 296 340 342 355
Helmholtz resonators 9
Helmoltz, H. L. F. 6 92
Herrick, J. F. 55 79 80 93
Hertz, C. H. 82 91
Herzfeld, K. F. 15 24 41 50 84 93
Hewlitt, A. 39 93
Hezlet, A. 27 52 93
Hickling, R. 203 293
Hiedemann, E. 57 60 72 93
Higgins, F. P. 341 355 357
High-frequency acoustic waves, generation of 23
High-frequency acoustics in 19th century 3—20
High-frequency acoustics, early 20th-century work in 20—28
High-frequency acoustics, pre-19th-century developments in 3—4
High-frequency acoustics, Rayleigh’s contributions to 18—20
High-frequency alternator 23
High-frequency generators in early 20th century 20—22
High-frequency generators, audibility limits and 4—8
High-power ultrasonics 64—74
Hirai, N. 336 357
Hoeyen, J. 281 293
Hofstetter, E. M. 179 188
Hoiem, B. E. 102 188
Holland, M. G. 107 110 113 189
Hollander, A. 66 93
Holtzmann, M. 39 93
Holtzmark, J. 67 93
Hopwood, F. L. 55 56 93
Horton, J. W. 87 93
Houghton, J. R. 317 357
Hovorka, F. 73 97
Howells, E. 340 357
Howeth, L. S. 26 32 34 51 87 93
Hsu, N. N. 301 302 303 304 305 306 307 308 309 310 311 312 557
Huang, G. 342 358
Hubbard, J. C. 2 50 59 93
Hueter, T. F. 89 93
Hunderi, O. 339 357
Hunt, F. V. 16 17 18 23 24 26 28 34 35 36 37 46 52 84 88 93 96
Hutchison, T. S. 317 339 358
Hutton, P. H. 350 357
Hydrodynamic cavitation 38—39 58 66
IDTS see Interdigital transducers
Impedance, acoustic 40—41
Impulse model, interdigital transducer and 114—115
Incident shear waves 247—252
Inclusions, elastic-wave scattering from 240—281
Indiana University 84
Insertion loss/bandwidth triple-transit trade-offs 169—175
Institute of Radio Engineers 61
Integrated optic spectrum analyzer 185
Intense ultrasound 41—60 see Ultrasound
Intense ultrasound, early apparatus for 44
Intense ultrasound, Loomis’ work in 43—45
Intense ultrasound, physical effects of 41—42
Intense ultrasound, Wood’s work in 42—44
Interdigital transducers, acoustic propagation loss in 131—132
Interdigital transducers, array factors in 100—101 111—113
Interdigital transducers, as filter elements 102—110
Interdigital transducers, bulk or plate waves and 129—130
Interdigital transducers, circuit factors in 154—155
Interdigital transducers, circuit-model analysis and design of 99—187
Interdigital transducers, crossed-field model in 137—142
Interdigital transducers, delta-function model in 113—114
Interdigital transducers, electric admittance for 136—137
Interdigital transducers, generalized circuit model of 142—146
Interdigital transducers, impulse model of 114—115
Interdigital transducers, phase-reversal 152
Interdigital transducers, power reflection coefficient for 128
Interdigital transducers, Rayleigh wave mode and 133
Interdigital transducers, regeneration distortion and 127
Interdigital transducers, second-order effects in 122—132
Interdigital transducers, source-withdrawal weighting and 120—122
Interdigital transducers, three-port circuit models of 101 132—160
Interdigital transducers, tradeoffs of bandwidth and other factors in 169—176
Interdigital transducers, transfer functions in 134—136
Interdigital transducers, vs. transversal filters 106—109
Interferometer, acoustic see Acoustic interferometer
J. B. 34 93
Jaffe, H. 62 113 137 140 90 187
Janovsky — Pohlman whistle 64 70
Janovsky, W. 64 93
Jardetzky, W. S. 279 280 292
Jeans, J. H. 24 93
Jeter, J. R. 296 356
Johns Hopkins University 42
Johnson, C. H. 55 93 96
Johnson, G. 192 273 293
Johnson, I. 67 93
Johnson, L. J. 301 357
Johnson, R. T., Jr. 340 355
Jon, M. C. 351 352 353 355 357
Jones, R. C. 64 93
Jones, W. R. 124 125 132 134 135 137 139 142 145 180 184 185 188 189
Jones, W. S. 102 125 188
Joshi, S. G. 101 188
Joule, J. P. 16 93
Judd, G. W. 124 182 183 184 188
Junger, M. C. 192 195 199 293
Kahn, S. 351 557
Kallmann, H. E. 104 188
Kass, W. J. 339 357 358
Kawamoto, A. 342 358
Kazantsev, V. F. 67 96
Kearns, W. J. 162 189
Keller, A. C. 84 93
Kelly, E. 79 80 82 84 93
Kelvin & Hughes, Ltd. 76
Kelvin — Voigt model of viscoelasticity 221
Kerlin, R. L. 83 95
Keskimaki, C. A. 351 352 357
Keskin, M. 290 294
Kimura, H. 342 343 344 358
Kingery, R. A. 82 93
Kino, G. S. 101 145 187
Kirchhoff equations, for perfect gas 50
Kirchhoff, G. 15 93
Klauder, J. R. 107 180 182 188
Klein, E. 27 29 32 33 34 47 51 52 93
Kline, R. A. 334 358
Knapp, R. T. 66 93
Kneser liquids 84
Kneser, H. O. 50 93
Knopoff, L. 301 304 324 355 358
Knott, J. F. 328 358
Kock, W. E. 79 93
Kodama, T. 179 188
Koener, R. M. 296 358
Koenig, R. 8 94
Kolsky, H. 297 358
Kraft, D. W. 192 268 273 293
Krasil’nikov, V. A. 25 94
Krautkramer, H. 76 77 94
Krautkramer, J. 76 77 94
Krichbaum, C. K. 192 286 287 294
Krimholtz, R. 102 145 146 188
Kruse, F. 54 94
Krusen, F. H. 55 79 80 82 93
Kundt tubes 10—12 20—21 57
Kundt, A. 10 94
Kup, O. A. 350 358
Kusanagi, H. 342 343 344 358
La Tour siren 64
Laker, K. R. 102 189
Lakestani, F. 317 356
Lakin, K. M. 132 188
Lamb wave dispersion curves 235
Lamb, H. 298 299 301 358
Lamson, H. W. 35 94
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