Numerical data and functional relationships in science and technology. N.s. / Ed.-in-chief: W. Martienssen Group 3, Condensed matter Vol. 30. High frequency properties of dielectric crystals / ed. D.F. Nelson Subvol. a. Piezooptic and electrooptic constan
معرفی کتاب «Numerical data and functional relationships in science and technology. N.s. / Ed.-in-chief: W. Martienssen Group 3, Condensed matter Vol. 30. High frequency properties of dielectric crystals / ed. D.F. Nelson Subvol. a. Piezooptic and electrooptic constan» نوشتهٔ D. F. Nelson (auth.), D. F. Nelson (eds.)، منتشرشده توسط نشر Springer-Verlag Berlin Heidelberg در سال 1996. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
While vols. III/29 A, B (published in 1992 and 1993, respectively) contains the low frequency properties of dielectric crystals, in __vol. III/30__ the high frequency or optical properties are compiled. The present and first **subvolume 30 A** contains piezooptic and elastooptic constants, linear and quadratic electrooptic constants and their temperature coefficients, and relevant refractive indices. Subvolume 30 B will cover second and third order nonlinear optical susceptibilities. For the reader's convenience an alphabetical formula index and an alphabetical index of chemical, mineralogical and technical names for all substances of volumes 29 A, B and 30 A are included. 5 Piezooptic and electrooptic constants of crystals 1 5.1 Introduction D.F. Nelson 1 5.1.1 Definitions 1 5.1.2 List of symbols 1 5.1.3 Index ellipsoid 3 5.1.4 Linear perturbations of index ellipsoid 3 5.1.5 Rotooptic effect 5 5.1.6 Interchange symmetry 5 5.1.7 Matrix notation 7 5.1.8 Crystal symmetry 8 5.1.9 Constitutive relations 10 5.1.10 Piezooptic relations 12 5.1.11 Electrooptic relations 13 5.1.12 Refractive index change formulas 13 5.1.13 Piezooptic measurements 17 5.1.14 Electrooptic measurements 19 5.1.15 Relation to nonlinear susceptibilities 19 5.1.16 Quadratic electrooptic effect 21 5.1.17 Piezooptics of absorbing crystals 23 5.2 Piezooptic and elastooptic coefficients K. Vedam 24 5.2.1 Comments on tabulated data 24 5.2.2 Piezooptic and elastooptic coefficients 26 5.2.2.1 Cubic system: Classes -43m T{d}, 432 O, m3m O{h} 26 Aluminum - Lithium 26 Magnesium - Potassium 39 Rubidium - Zirconium 46 5.2.2.2 Cubic system: Classes 23 T, m3T{h} 57 5.2.2.3 Hexagonal system: Classes -6m2 D{3h}, 6mm C{6v}, 622 D{6}, 6/mm D{6h} 63 5.2.2.4 Hexagonal system: Classes 6 C{6}, -6 C{3h}, 6/m C{6h} 65 5.2.2.5 Trigonal system: Classes 3m C{3v}, 32 D{3}, -3m D{3d} 66 5.2.2.6 Trigonal system: Classes 3C{3}, -3S6 70 5.2.2.7 Tetragonal system: Classes 4mm C{4v}, -42m D{2d}, 422 D{4}, 4/mmm D{4h} 71 5.2.2.8 Tetragonal system: Classes 4 C{4}, -4 S{4}, 4/m C{4h} 77 5.2.2.9 Orthorhombic system: All classes, 222 D{2}, mm2 C{2v}, mmm D{2h} 79 5.2.2.10 Monoclinic system: All classes, 2 C{2}, m C{s}, 2/m C{2h} 90 5.2.2.11 Triclinic system: All classes, 1 C{1}, and 1 C{i} 94 5.2.3 Rotooptic coefficients o 95 5.2.4 Figures 97 Figs. 1 - 47 97 Figs. 48 - 99 110 Figs. 100 - 150 123 Figs. 151 - 196 136 Figs. 197 - 242 149 Figs. 243 - 273 162 5.3 Electrooptic coefficients W.R. Cook jr 173 5.3.1 Special introduction 173 5.3.1.1 List of symbols 173 5.3.1.2 Comments on tabulated data 175 5.3.1.3 Electrogyration 179 5.3.2 Tables of linear electrooptic coefficients 181 5.3.2.1 Cubic, -43m T{d} 181 5.3.2.2 Cubic isometric, 23T 186 5.3.2.3 Hexagonal, 622 D{6} 190 5.3.2.4 Hexagonal, -6m2 D{3h} 190 5.3.2.5 Hexagonal, 6mm C{6v} 191 5.3.2.6 Poled ceramics, infin.m C{infin.v} 193 5.3.2.7 Symmetry infin.m C{infin.v}, polymer sheet 195 5.3.2.8 Hexagonal, 6 C{6} 197 5.3.2.9 Trigonal rhombohedral, 32 D{3} 198 5.3.2.10 Trigonal rhombohedral, 3m C{3v} 199 5.3.2.11 Trigonal rhombohedral, 3 C{3} 203 5.3.2.12 Tetragonal, 422 D{4} 203 5.3.2.13 Tetragonal, -42m D{2d} 204 5.3.2.14 Tetragonal, 4mm C{4v} 213 5.3.2.15 Tetragonal, -4 S{4} 218 5.3.2.16 Orthorhombic, 222 D{2} 219 5.3.2.17 Orthorhombic, mm2 C{2v} 222 5.3.2.18 Orthorhombic, mm2 C{2v}, piezoelectric polymers 229 5.3.2.19 Monoclinic, 2 C{2} 230 5.3.2.20 Monoclinic, m C{s} 233 5.3.2.21 Triclinic, 1 C{1} 235 5.3.3 Quadratic electrooptic coefficients 235 5.3.3.1 Cubic isometric, m3m O{h} 235 5.3.3.2 Cubic isometric, -43m T{d} 240 5.3.3.3 Cubic isometric, m3 T{h} 240 5.3.3.4 Ceramics, infin.m C{infin.v} 242 5.3.3.5 Symmetry infin.m C{infin.v}, polymer sheet 245 5.3.3.6 Trigonal rhombohedral, 3m C{3v} 245 5.3.3.7 Trigonal rhombohedral, 3 C{3} 245 5.3.3.8 Tetragonal, 422 D{4} 245 5.3.3.9 Tetragonal, -42m D{2d} 246 5.3.3.10 Tetragonal, 4mm C{4v} 247 5.3.3.11 Orthorhombic, mmm D{2h} 248 5.3.3.12 Orthorhombic, 222 D{2} 248 5.3.3.13 Orthorhombic mm2 C{2v} 249 5.3.3.14 Orthorhombic, mm2 C{2v}, piezoelectric polymers 250 5.3.3.15 Monoclinic, 2 C{2} and 2/m C{2h} 250 5.3.3.16 Monoclinic, m C{s} 252 5.3.4 Indices of refraction and Sellmeier coefficients 252 5.3.4.1 Cubic isometric, m3m O{h} 252 5.3.4.2 Cubic isometric, -43m T{d} 254 5.3.4.3 Cubic isometric, m3 T{h} 257 5.3.4.4 Cubic isometric, 23 T 257 5.3.4.5 Hexagonal, 622 D{6} 259 5.3.4.6 Hexagonal, -6m2 D{3h} 259 5.3.4.7 Hexagonal, 6mm C{6v} 260 5.3.4.8 Poled ceramics, infin.m C{infin.v} 262 5.3.4.9 Symmetry infin.m C{infin.v}, polymer sheet. Hexagonal, -6 C{3h} 263 5.3.4.10 Hexagonal, 6 C{6} 263 5.3.4.11 Trigonal rhombohedral, 32 D{3} 265 5.3.4.12 Trigonal rhombohedral, 3m C{3v} 268 5.3.4.13 Trigonal rhombohedral, 3 C{3} 274 5.3.4.14 Tetragonal, 422 D{4} 274 5.3.4.15 Tetragonal, -42m D{2d} 276 5.3.4.16 Tetragonal, 4mm C{4v} 282 5.3.4.17 Orthorhombic, 222 D{2} 284 5.3.4.18 Orthorhombic, mm2 C{2v} 287 5.3.4.19 Monoclinic, 2 C{2} 295 5.3.4.20 Monoclinic, m C{s} 299 5.3.4.21 Triclinic, 1 C{1} 301 5.3.5 Temperature coefficients 303 5.3.5.1 Temperature coefficients of the linear electrooptic coefficients r 303 5.3.5.1.1 Cubic isometric, -43m T{d} 303 5.3.5.1.2 Trigonal rhombohedral, 3m C{3v} and Tetragonal, 4mm C{4v} 303 5.3.5.2 Temperature coefficients of indices of refraction 304 5.3.5.2.1 Cubic isometric, -43m T{d} 304 5.3.5.2.2 Cubic isometric, 23 T 304 5.3.5.2.3 Hexagonal, 6 mm C{6v} 305 5.3.5.2.4 Hexagonal, 6 C{6} and Trigonal rhombohedral, 32 D{3} 305 5.3.5.2.5 Trigonal rhombohedral, 3m C{3v} 306 5.3.5.2.6 Tetragonal, -42m D{2d} 308 5.3.5.2.7 Tetragonal, 4 mm C{4v} 310 5.3.5.2.8 Orthorhombic, 222 D{2} 310 5.3.5.2.9 Orthorhombic, mm2 C{2v} 311 5.3.6 Electrogyration 311 5.3.6.1 Cubic isometric, m3 T{h} 311 5.3.6.2 Cubic isometric, 23 T 312 5.3.6.3 Hexagonal, 6/m C{6h} 312 5.3.6.4 Hexagonal, 6 C{6} 312 5.3.6.5 Trigonal rhombohedral, 32 D{3} 313 5.3.6.6 Trigonal rhombohedral, 3 C{3} 313 5.3.6.7 Tetragonal, 422 D{4} 314 5.3.6.8 Tetragonal, -42m D{2d} 314 5.3.6.9 Tetragonal, 4/m C4{h} 314 5.3.6.10 Tetragonal, -4 S{4} 314 5.3.6.11 Tetragonal, 4 C{4} 315 5.3.6.12 Orthorhombic, 222 D{2} 315 5.3.6.13 Orthorhombic, mm2 C{2v} 315 5.3.6.14 Monoclinic, 2 C2 and m C{s} 316 5.3.7 Figures 317 Figs. 1 - 46 317 Figs. 47 - 96 329 Figs. 97 - 138 341 5.4 Bibliography 354 5.4.1 Books and review articles 354 5.4.2 References 357 1890P1 - 71A4 357 71A5 - 78G3 370 78G4 - 88G4 383 88G5 - 94Z1 396 5.1.2 List of symbols....Pages 1-2 5.1.4 Linear perturbations of index ellipsoid....Pages 3-4 5.1.6 Interchange symmetry....Pages 4-5 5.1.7 Matrix notation....Pages 5-5 5.1.8 Crystal symmetry....Pages 6-7 5.1.9 Constitutive relations....Pages 7-8 5.1.10 Piezooptic relations....Pages 8-8 5.1.12 Refractive index change formulas....Pages 9-12 5.1.13 Piezooptic measurements....Pages 13-14 5.1.15 Relation to nonlinear susceptibilities....Pages 14-15 5.1.16 Quadratic electrooptic effect....Pages 15-16 5.1.17 Piezooptics of absorbing crystals....Pages 16-16 5.2.1 Comments on tabulated data....Pages 17-18 Aluminum - Lithium....Pages 19-31 Magnesium - Potassium....Pages 32-38 Rubidium - Zirconium....Pages 39-49 5.2.2.2 Cubic system: Classes 23 (T), m3(T{h})....Pages 50-55 5.2.2.3 Hexagonal system: Classes (-6)m2 (D{3h}), 6mm (C{6v}), 622 (D{6}), 6/mm (D{6h})....Pages 56-57 5.2.2.4 Hexagonal system: Classes 6 (C{6}), (-6) (C{3h}), 6/m (C{6h})....Pages 58-58 5.2.2.5 Trigonal system: Classes 3m (C{3v}), 32 (D{3}), (-3)m (D{3d})....Pages 59-62 5.2.2.6 Trigonal system: Classes 3(C{3}), (-3)(S6)....Pages 63-63 5.2.2.7 Tetragonal system: Classes 4mm (C{4v}), (-4)2m (D{2d}), 422 (D{4}), 4/mmm (D{4h})....Pages 64-69 5.2.2.8 Tetragonal system: Classes 4 (C{4}), (-4) (S{4}), 4/m (C{4h})....Pages 69-70 5.2.2.9 Orthorhombic system: All classes, 222 (D{2}), mm2 (C{2v}), mmm (D{2h})....Pages 71-81 5.2.2.10 Monoclinic system: All classes, 2 (C{2}), m (C{s}), 2/m (C{2h})....Pages 82-85 5.2.2.11 Triclinic system: All classes, 1 (C{1}), and 1 (C{i})....Pages 85-85 5.2.3 Rotooptic coefficients o....Pages 86-87 Figs. 1 - 47....Pages 88-100 Figs. 48 - 99....Pages 101-113 Figs. 100 - 150....Pages 114-126 Figs. 151 - 196....Pages 127-139 Figs. 197 - 242....Pages 140-152 Figs. 243 - 273....Pages 153-163 5.3.1.1 List of symbols....Pages 164-165 5.3.1.2 Comments on tabulated data....Pages 165-168 5.3.1.3 Electrogyration....Pages 168-169 5.3.2.1 Cubic, (-4)3m (T{d})....Pages 170-174 5.3.2.2 Cubic (isometric), 23(T)....Pages 174-177 5.3.2.4 Hexagonal, (-6)m2 (D{3h})....Pages 177-177 5.3.2.5 Hexagonal, 6mm (C{6v})....Pages 178-179 5.3.2.6 Poled ceramics, infin.m (C{infin.v})....Pages 179-180 5.3.2.7 Symmetry infin.m (C{infin.v}), polymer sheet....Pages 181-182 5.3.2.8 Hexagonal, 6 (C{6})....Pages 182-182 5.3.2.9 Trigonal (rhombohedral), 32 (D{3})....Pages 183-183 5.3.2.10 Trigonal (rhombohedral), 3m (C{3v})....Pages 184-187 5.3.2.12 Tetragonal, 422 (D{4})....Pages 187-187 5.3.2.13 Tetragonal, (-4)2m (D{2d})....Pages 188-196 5.3.2.14 Tetragonal, 4mm (C{4v})....Pages 197-201 5.3.2.15 Tetragonal, (-4) (S{4})....Pages 201-201 5.3.2.16 Orthorhombic, 222 (D{2})....Pages 202-204 5.3.2.17 Orthorhombic, mm2 (C{2v})....Pages 205-211 5.3.2.18 Orthorhombic, mm2 (C{2v}), piezoelectric polymers....Pages 212-212 5.3.2.19 Monoclinic, 2 (C{2})....Pages 213-215 5.3.2.20 Monoclinic, m (C{s})....Pages 216-217 5.3.3.1 Cubic (isometric), m3m (O{h})....Pages 217-221 5.3.3.3 Cubic (isometric), m3 (T{h})....Pages 222-223 5.3.3.4 Ceramics, infin.m (C{infin.v})....Pages 223-225 5.3.3.8 Tetragonal, 422 (D{4})....Pages 226-226 5.3.3.9 Tetragonal, (-4)2m (D{2d})....Pages 227-227 5.3.3.10 Tetragonal, 4mm (C{4v})....Pages 228-228 5.3.3.12 Orthorhombic, 222 (D{2})....Pages 229-229 5.3.3.13 Orthorhombic mm2 (C{2v})....Pages 230-230 5.3.3.15 Monoclinic, 2 (C{2}) and 2/m (C{2h})....Pages 231-232 5.3.4.1 Cubic (isometric), m3m (O{h})....Pages 233-234 5.3.4.2 Cubic (isometric), (-4)3m (T{d})....Pages 235-237 5.3.4.4 Cubic (isometric), 23 (T)....Pages 238-239 5.3.4.6 Hexagonal, (-6)m2 (D{3h})....Pages 239-239 5.3.4.7 Hexagonal, 6mm (C{6v})....Pages 240-241 5.3.4.8 Poled ceramics, infin.m (C{infin.v})....Pages 241-241 5.3.4.10 Hexagonal, 6 (C{6})....Pages 242-243 5.3.4.11 Trigonal (rhombohedral), 32 (D{3})....Pages 244-246 5.3.4.12 Trigonal (rhombohedral), 3m (C{3v})....Pages 247-252 5.3.4.14 Tetragonal, 422 (D{4})....Pages 253-254 5.3.4.15 Tetragonal, (-4)2m (D{2d})....Pages 255-260 5.3.4.16 Tetragonal, 4mm (C{4v})....Pages 261-262 5.3.4.17 Orthorhombic, 222 (D{2})....Pages 263-265 5.3.4.18 Orthorhombic, mm2 (C{2v})....Pages 266-273 5.3.4.19 Monoclinic, 2 (C{2})....Pages 274-277 5.3.4.20 Monoclinic, m (C{s})....Pages 278-279 5.3.4.21 Triclinic, 1 (C{1})....Pages 279-280 5.3.5.1.2 Trigonal (rhombohedral), 3m (C{3v}) and Tetragonal, 4mm (C{4v})....Pages 280-280 5.3.5.2.2 Cubic (isometric), 23 (T)....Pages 281-281 5.3.5.2.4 Hexagonal, 6 (C{6}) and Trigonal (rhombohedral), 32 (D{3})....Pages 282-282 5.3.5.2.5 Trigonal (rhombohedral), 3m (C{3v})....Pages 283-284 5.3.5.2.6 Tetragonal, (-4)2m (D{2d})....Pages 285-286 5.3.5.2.8 Orthorhombic, 222 (D{2})....Pages 287-287 5.3.6.1 Cubic (isometric), m3 (T{h})....Pages 288-288 5.3.6.4 Hexagonal, 6 (C{6})....Pages 289-289 5.3.6.6 Trigonal (rhombohedral), 3 (C{3})....Pages 290-290 5.3.6.10 Tetragonal, (-4) (S{4})....Pages 291-291 5.3.6.13 Orthorhombic, mm2 (C{2v})....Pages 292-292 5.3.6.14 Monoclinic, 2 (C2) and m (C{s})....Pages 293-293 Figs. 1 - 46....Pages 294-305 Figs. 47 - 96....Pages 306-317 Figs. 97 - 138....Pages 318-330 5.4.1 Books and review articles....Pages 331-333 1890P1 - 71A4....Pages 333-345 71A5 - 78G3....Pages 346-358 78G4 - 88G4....Pages 359-371 88G5 - 94Z1....Pages 372-381 Subvolume A. Peizooptic And Electrooptic Constants / Editor, D. F. Nelson -- Subvolume B. Nonlinear Dielectric Susceptibilities. Subvolumes B- Also Include Data On Computer Opitical Disc Includes Bibliographical References.
دانلود کتاب Numerical data and functional relationships in science and technology. N.s. / Ed.-in-chief: W. Martienssen Group 3, Condensed matter Vol. 30. High frequency properties of dielectric crystals / ed. D.F. Nelson Subvol. a. Piezooptic and electrooptic constan