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| Mason W.P. (ed.) — Physical Acoustics. Principles and Methods (volume 10) |
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| Предметный указатель |
"Creeping" waves 22 26 29 34—35 54—57 71—84 see
"Creeping" waves, attenuation in 77
"Creeping" waves, first computation of 82
"Creeping" waves, pulse shape in 76
"Creeping" waves, relative velocity of 76
"Creeping" waves, schlieren visualization of 71—73
"Creeping" waves, velocity and attenuation in 77
"Whispering-gallery" modes, geometry of 40 42 44 49 53
A-15 structure superconductors,  change due to structural transformation in 253—255
A-15 structure superconductors, alloying, in 213
A-15 structure superconductors, anharmonicity, instability, and superconductivity in 270—278
A-15 structure superconductors, anomalous behavior of 197—204
A-15 structure superconductors, band structure and Fermi surface of 284—287
A-15 structure superconductors, Batterman — Barrett transformation in 205—213
A-15 structure superconductors, elastic behavior of 214—242
A-15 structure superconductors, electrical restivity of 201—203
A-15 structure superconductors, Gruneisen parameters in 273
A-15 structure superconductors, Hall and Seebeck coefficients for 201—203
A-15 structure superconductors, history of 194—195
A-15 structure superconductors, magnetic behavior in 197—201
A-15 structure superconductors, polycrystalline components of 237—239
A-15 structure superconductors, specific heat for 203—204
A-15 structure superconductors, strain dependence in 239—242
A-15 structure superconductors, structural instability in 290—292
A-15 structure superconductors, structure of 195—197
A-15 structure superconductors, temperature dependencies of 198 222—239 269
A-15 structure superconductors, tetragonal distortion in 251—256
A-15 structure superconductors, topological sample changes in 209
A-15 structure superconductors, transformation temperatures and distortions in 206
A-15 structure superconductors, tunneling studies in 266—268
A-15 structure superconductors, ultrasonic attenuation in 216—222
A-15 structure superconductors, unit cell changes in 206—209
A-15 structure superconductors, volume changes in 208
Abeles, B. 130 170 183 189
Abrahams, S.C. 212 292
Achyuthan, K. see "Hargrove L.E."
Acoustic energy, electromagnetic wave and 134
Acoustic generators in metals at low frequencies 157—158
Acoustic generators in plane-parallel plate 166
Acoustic generators in semimetals 162—166
Acoustic generators, table of, with receivers 128
Acoustic holograms see also "Acoustic holography" "Holograms"
Acoustic holograms vs. optical 331
Acoustic holograms, early 312—218
Acoustic holograms, ultrasonic camera for 351
Acoustic holography 297—380 see
Acoustic holography as diffraction grating 367—368
Acoustic holography, early experiments in 348—353
Acoustic holography, focusing reflector in 369
Acoustic holography, hologram pulse compression in 374—378
Acoustic holography, interferometry with 370—374
Acoustic holography, medical applications of 358—361
Acoustic holography, seismic applications of 378—380
Acoustic holography, underwater applications of 361—366
Acoustic holography, velocity variations in 375
Acoustic kinoforms 366—370
Acoustic nuclear magnetic resonance 169—170
Acoustic phonon density, calculation of 261 264
Acoustic power, conversion efficiency for 157
Acoustic power, generation of 134
Acoustic radiation for plane and curved surfaces 61—125
Acoustic radiation for solid cylinders 68—96
Acoustic reciprocity, principle of 31
Acoustic shear waves see "Shear waves"
Acoustic waves see also "Surface waves"
Acoustic waves, diffracted 62—63
Acoustic waves, from electromagnetic radiation 152—185
Acoustic waves, schlieren photographs of 17 62—67
Acoustics, surface waves in 1—57 see
Adler, E.L. see "Farnell G.W."
Albersheim, W.J. 374 376 382
Alers, G.A. 174 190
Alers, G.A., The measurement of very small sound velocity changes and their use in the study of solids IVA 277
Alers, G.A., Use of sound velocity measurements in determining the Debye temperature of solids IIIB 1
Alig, R.C. 160 189
Alpher, R.A. 137 154 189
Aluminum alloy, compressional waves and 142
Aluminum cylinders, acoustic radiation from 68—70
Aluminum cylinders, hollow 96—104
Aluminum cylinders, hydrophone measurements for 87—96
Aluminum cylinders, reflection and transmission coefficients for 85
Aluminum cylinders, schlieren photographs of 88—96
Aluminum cylinders, schlieren visualization of radiation from 83—84
Aluminum cylinders, shear wave and 97
Aluminum cylinders, solid 62—96
Aluminum cylinders, wave fronts and 85—86
Aluminum, nondestructive testing of 147—148
Aluminum, shear wave generation in 146
Anderson, C.H., and Sabisky, E.S., Spin-phonon spectrometer VIII 1
Anderson, O.L. 232 292
Anderson, O.L., and Liebermann, R.C., Sound velocities in rocks and minerals: experimental methods, extrapolations to very high pressures, and results IVB 329
Anderson, O.L., Determination and some uses of isotropic elastic constants of polycrystalline aggregates using single-crystal data IIIB 43
Anderson, P.W. 209 292
Anharmonicity, in A-15 structure superconductors 270—278
Anomalous skin effect, electric field and 158—159
Ascher, E. 211 292
Atwood, K.W. 139 189
Augustine, C.F. 321 381
Axe, J.D. 208 209 211 214 254 259 260 262 263 271 272 278 283 284 295
Azbel', M.Ya. 160 189
Babinet's principle, in holography 343
Babkin, G.I. 164 180 189
Bacon, D.D. 266 268 294
Barisic, S. 203 211 280 281 292 293 294
Barnard, G.R. 29 57
Barrekette, E.S. 380
Barrett, C.S. 194 204 205 206 207 208 209 211 214 219 253 255 293
Barrett, H.H., Acoustic properties of materials of the perovskite structure VI 65
Barsch, G.R. 240 272 273 274 275 281 293
Bateman, T.B. 195 206 212 214 216 218 219 220 222 223 224 225 226 229 260 268 269 270 274 283 296
Batterman — Barrett transformation in A-15 structure superconductors 205—213
Batterman — Barrett transformation, alloying effects and 213
Batterman — Barrett transformation, stress dependence of 211—212
Batterman — Barrett transformation, temperature dependence and 225—226
Batterman — Barrett transformation, thermodynamic order of 209—211
Batterman, B.W. 194 204 205 206 207 208 209 210 211 214 217 219 229 230 231 232 241 253 254 255 270 293 295 296
Bauer, H.J., Phenomenological theory of the relaxation phenomena in gases IIA 47
Becker, F.L. 2 7 57 113 114 115 125
Beckmann, P. 45 52 57 58
Belash, V.P. 285 295
Bennett, G.S. 358 381
Berko, S. 285 293
Berlincourt, D.A., Curran, D.R., and Jaffe, H., Piezoelectric and peizomagnetic materials and their function in transducers IA 169
Berman, H.S. 214 294
Bernasson, M. 201 293
Bernstein, B.T. 280 293
Berry, B.S., and Nowick, A.S., Anelasticity and internal friction due to point defects in crystals IIIA 1
Betjemann, A.G. 130 131 135 136 137 140 143 189
Beyer, R.T., Nonlinear acoustics IIB 231
Birgeneau, R.J. 211 214 259 260 271 272 278 283 295
Birman, J.L. 211 283 293 294
Bistatic reflection, for creeping waves at cylinder 80
Blaugher, R.D. 292 293
Bleich, H.H. 56 58
Bleistein, N. 32 59
Blount, E.I. 205 208 209 211 254 292 295
Blumberg, W.E. 197 199 293
Boemmell, H.E. 217 296
Bohm, H.V. 129 130 131 135 136 137 140 141 143 170 174 178 189 190
Bolef, D.I., and Miller, J.G., High-frequency continuous wave ultrasonics VIII 95
Bolef, D.I., Interaction of acoustic waves with nuclear spins in solids IVA 113
Bonnerot, J. 203 211 293
Bosomworth, D.R. 268 293
Bostock, J. 284 295
Bouwkamp, C.J. 5 57
Bowers, R. 146 147 191
Bowles, J.S. 209 293
Boyer, A.L. 368 369 381
Bratina, W.J., Internal friction and basic fatigue mechanisms in body-centered cubic metals, mainly iron and carbon steels IIIA 232
Breazeale, M.A. 110 125
| Brekhovskikh, L.M. 2 6 7 9 10 12 15 18 32 38 39 41 42 58 107 125
Bremmer, H. 45 60
Brendon, B.B. 359 380 382
Brill, D. 46 47 48 50 51 58 82 125
Brillouin, L. 106 125
Brock, J.C.F. 203 293
Brooks, R.E. 370 382
Brosze, O. 330 383
Brown, B.R. 366 381
Brown, G.M. 370 381
Brown, W.M. 333 339 357 381
Bruce, E. 301 381
Brugger, K. 272 293
Buchel, W. 259 293
Bucher, E. 284 292 293 295
Budden, K.G. 5 58
Buehler, E. 194 294
Bunney, E. 7 58
Bunney, R.E. 84 87 125
Burckhardt, C.B. 330 367 380 381
Cagniard, L. 9 58
Camatini, E. 380
Carcia, P.F. 240 241 272 273 274 275 281 293
Carlin, B., The use of high- and low-amplitude ultrasonic waves for inspection and processing IB 1
Caustic-correction factors, in surface waves 32
Cerf, R., Relaxation and resonance of Markovian systems IVB 181
Chambers, R.G. 158 189
Chambers, R.H., Dislocation relaxations in face-centered cubic transition metals IIIA 123
Chao, C.C. 56 58
Checcacci, P.F. 321 381
Chen, Y.M. 27 33 35 46 47 58
Cheng, G. 204 294
Chirba, V.G. 195 206 214 216 219 222 224 229 230 235 237 239 268 274 283 296
Choate, K. 27 28 59
Chu, C.W. 292 293
Circumferential waves, geometry- of 49
Clark, J.E. 343 383
Classic skin depth 165
Clogston, A.M. 197 278 279 293
Cochran, J.F. 132 167 168 172 173 190 191
Cocks, F.H. 205 208 211 294
Cody, G.D. 201 203 224 234 281 282 293 295 296
Cohen, M.H. 130 150 189
Cohen, R.W. 184 189 201 205 206 211 224 234 268 281 282 293 294 295 296
Collier, R.J. 330 367 380 381
Collings, E.W. 292 294
Compressional waves 143—145
Compressional waves in semimetals 181—183
Compressional waves, echoes of in aluminum alloy 142
Compressional waves, generation of 139
Compressional waves, intensity distributions of 140
Compressional waves, temperature dependence in 182
Comstock, R.L. see "Le Craw R.C."
Condon, J.H. 215 296 see L.R."
Conversion efficiency for acoustic power 157
Conversion efficiency of microsound generation 161
Cooper, A.S. 255 292 293 295
Corenzwit, E. 194 204 255 293 295
Cubic crystal, elastic moduli and mode velocities in 215
Cullen, G.W. 268 293
Curran, D.R. see "Berlincourt D.A.D."
Curved surfaces, acoustic radiation from 61—125
Curved transparent objects, surface waves in 37—56
Cutrona, L.J. 332 333 382
Cylinder(s), acoustic radiation from 68—70
Cylinder(s), creeping wave properties of 73—81
Cylinder(s), creeping wave velocity and attenuation for 77
Cylinder(s), hollow 96—104
Cylinder(s), hydrophone measurements with 73—81
Cylinder(s), reradiated acoustic field at 81—82
Cylinder(s), shear waves and 84
Cylinder(s), solid 62—96
Cylindrical shells, acoustic radiation from 96—104
Cylindrical shells, hydrophone measurements for 103—104
Cyrot-Lackmann, F. 280 293
Damon, R.W., Maloney, W.T., and McMahon, D.H., Interaction of light with ultrasound: phenomena and applications spin-phonon spectrometer VII 273
Davis, C.M. see "Litovitz T.A."
de Klerk, J., Fabrication of vapor-deposited thin film piezoelectric transducers for the study of phonon behavior in dielectric materials at microwave frequencies IVA 195
Debye series, in surface wave analysis 50 52
Debye — Waller function 277
Debye, P.J. 50 58
Deformation generation, in semimetals 166
Deppermann, K. 71 125
Descouts, P. 201 293
Deutsch, C. 321 381
Diachok, O.I. 61 66 125
Diehl, R. 353 354 383
Diercks, K.J. 29 46 54 58 59 87 125
Dieterich, W. 283 293
Diffracted surface rays 34 62
Diffraction coefficients 31
Diffraction grating, in acoustic holography 367—368
Diffraction, geometric theory of 30
Diffuse reflection, in microwave excitations 160—162
Dispersion curves, Lamb waves and 18
DKDP crystal, in acoustic holography 360 364—365
Dobbs, E.R. 129 130 131 134 135 136 137 138 139 140 141 142 143 144 146 147 149 150 153 162 174 176 177 178 180 181 182 185 189 190
Dobbs, E.R., Electromagnetic generation of ultrasonic waves X 127
Dobrin, M.B. 379 382
Dologopolov, V.T. 129 164 166 174 178 179 180 181 189 190
Doolittle, R.D. 23 27 43 44 46 47 48 49 54 55 58 60 71 76 77 82 125
Dougall, J. 22 58
Dragonette, L.R. 7 20 58 67 70 72 86 87 88 90 91 92 93 94 95 97 98 99 100 101 102 103 118 119 120 121 122 123 124 125 126
Dransfeld, K. 2 7 58 113 125
Dransfeld, K., and Salzmann, E., Excitation, detection, and attenuation of high-frequency elastic surface waves VII 219
Dresselhaus, G. 148 190
Eckstein, S.G., Eckstein, Y., Ketterson, J.B., and Vignos, J.H., The propagation of sound in condensed helium VI 243
Eckstein, Y. see "Eckstein S.G."
Einspruch, N. 141 190
Eisinger, J. 197 199 293
Eisner, E., The design of resonant vibrators IB 353
Elastic moduli, strain dependence of 239—242
Elastic plate, eigenvibrations of 17
Elbaum, C. see "Truell R."
Electric field, anomalous skin depth in 158-159
Electromagnetic generation, classical theory of 131—135
Electromagnetic generation, coil design in 138—142
Electromagnetic generation, conversion efficiency in 134—135
Electromagnetic generation, equations of motion in 131—133
Electromagnetic generation, high-temperature results in 135—148
Electromagnetic generation, low-temperature results in 170—185
Electromagnetic generation, microscopic theory of 148—170
Electromagnetic transducers 170 185—186
Electromagnetic transducers in nondestructive testing 146—148
Electromagnetic transducers vs. piezoelectric 145
Electromagnetic transducers, conversion efficiency of 143
Electron energy, magnetic field and 176
Electron-phonon system 154
Elices, M., and Garcia-Moliner, F., Wave packet propagation and frequency-dependent internal friction V 163
Erikson, K.R. 336 353 374 382
Ewing, W.M. 3 5 9 10 58
Farnell, G.W. 2 58
Farnell, G.W., and Alder, E.L., Elastic wave propagation in thin layers IX 35
Farnell, G.W., Properties of elastic surface waves VI 109
Fate, W.A. 217 294
Fawcett, E. 211 253 293
Feit, D. 57 58 59
Felsen, L.B. 20 60
Fermi surface, of A-15 structure superconductors 284—287
Feshback, H. 3 22 59
Fiks, V.B. 160 190
Finlayson, T.R. 216 227 228 285 293 296
Firestone, A.F. 18 58
Flaherty, J.J. 336 353 374 382
Fleury, P.A., Light scattering as a probe of phonons and other excitations VI 1
Fluekiger, R. 201 204 293 296
Flynn, H.G., Physics of acoustic cavitation in liquids IB 57
Foner, S. 194 293
Fountain, L.S. 61 125
Fox, G.R. 357.383
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