Handbook of Optical MaterialsCRC Press, 24 sept. 2002 - 536 pages For years scientists turned to the CRC Handbook of Laser Science & Technology for reliable data on optical materials. Out of print for several years, that standard-setting work now has a successor: the Handbook of Optical Materials. This new handbook is an authoritative compilation of the physical properties of materials used in all types of lasers and optical systems. In it, scientist, author, and editor Dr. Marvin J. Weber provides extensive data tabulations and references for the most important optical materials, including crystals, glasses, polymers, metals, liquids, and gases. The properties detailed include both linear and nonlinear optical properties, mechanical properties, thermal properties together with many additional special properties, such as electro-, magneto-, and elasto-optic properties. Using a minimum of narration and logically organized by material properties, the handbook's unique presentation simplifies the process of comparing different materials for their suitability in particular applications. Appendices furnish a wealth of other useful information, including lists of the many abbreviations and acronyms that proliferate in this field. The Handbook of Optical Materials is simply the most complete one-stop source available for materials data essential to lasers and optical systems. |
Table des matières
CRYSTALLINE MATERIALS | 3 |
12 Physical Properties | 35 |
122 Uniaxial Crystals | 40 |
123 Biaxial Crystals | 50 |
13 Optical Properties | 62 |
131 Isotropic Crystals | 63 |
132 Uniaxial Crystals | 66 |
133 Biaxial Crystals | 70 |
2102 TwoPhoton Absorption | 268 |
2103 ThirdOrder Nonlinear Optical Coefficients | 269 |
2104 Brillouin Phase Conjugation Glasses Used for Brillouin Phase Conjugation | 270 |
211 Special Glasses | 271 |
2112 Laser Glasses | 277 |
2113 Faraday Rotator Glasses | 285 |
2114 GradientIndex Glasses | 288 |
2115 Mirror Substrate Glasses | 289 |
134 Dispersion Formulas for Refractive Indices | 75 |
135 Thermooptic Coefficients | 94 |
14 Mechanical Properties | 107 |
142 Elastic Moduli | 117 |
143 Engineering Data | 119 |
15 Thermal Properties | 122 |
152 Temperature Dependence of Heat Capacity for Selected Solids | 133 |
16 Magnetooptic Properties | 135 |
162 Paramagnetic Materials | 138 |
163 Ferromagnetic Antiferromagnetic and Ferrimagnetic Materials | 140 |
17 Electrooptic Properties | 148 |
172 Quadratic Electrooptic Materials | 158 |
18 Elastooptic Properties | 159 |
182 Acoustooptic Materials | 164 |
19 Nonlinear Optical Properties | 165 |
192 TwoPhoton Absorption | 176 |
193 Second Harmonic Generation Coefficients | 200 |
194 ThirdOrder Nonlinear Optical Coefficients | 209 |
195 Optical Phase Conjugation Materials | 212 |
GLASSES | 219 |
21 Introduction | 221 |
22 Commercial Optical Glasses | 228 |
221 Optical Properties | 229 |
222 Internal transmutante 5 mm | 230 |
223 Mechanical Properties | 231 |
224 Thermal Properties | 232 |
23 Specialty Optical Glasses | 233 |
231 Optical Properties | 234 |
232 Mechanical Properties | 235 |
233 Thermal Properties | 236 |
24 Fused Vitreous Silica | 237 |
25 Fluoride Glasses | 241 |
252 Fluorohafnate Glasses | 242 |
253 Other Fluoride Glasses | 243 |
26 Chalcogenide Glasses | 244 |
27 Magnetooptic Properties | 246 |
272 Paramagnetic Glasses | 249 |
28 Electrooptic Properties | 251 |
29 Elastooptic Properties | 253 |
210 Nonlinear Optical Properties | 261 |
2117 Acoustooptic Glasses | 290 |
211 Abnormal Dispersion Glass | 291 |
32 Index of Refraction | 299 |
33 Nonlinear Optical Properties | 300 |
34 Thermal Properties | 306 |
METALS | 310 |
42 Optical Properties | 313 |
43 Mechanical Properties | 365 |
44 Thermal Properties | 367 |
45 Mirror Substrate Materials | 369 |
LIQUIDS | 370 |
522 Absorption | 373 |
523 Index of Refraction | 376 |
53 Physical Properties of Selected Liquids | 381 |
531 Thermal conductivity | 383 |
532 Viscosity | 384 |
533 Surface Tension | 385 |
54 Index of Refraction | 388 |
542 Inorganic Liquids | 392 |
543 Calibration Liquids | 393 |
544 Abnormal Dispersion Liquids | 394 |
55 Nonlinear Optical Properties | 395 |
551 TwoPhoton Absorption Cross Sections | 397 |
552 Nonlinear Refraction | 400 |
553 Kerr Constants | 405 |
554 ThirdOrder Nonlinear Optical Coefficients | 408 |
555 Stimulated Raman Scattering Observed SRS Lineshifts со of Liquids | 409 |
556 Stimulated Brillouin Scattering | 414 |
422 | |
56 J Dispersion of the Verdet Constants | 426 |
57 Commercial Optical Liquids | 428 |
62 Physical Properties of Selected Gases | 439 |
63 Index of Refraction | 444 |
64 Nonlinear Optical Properties | 459 |
643 ThirdOrder Nonlinear Optical Coefficients | 460 |
644 Stimulated Raman Scattering | 461 |
645 Brillouin Phase Conjugation | 464 |
65 Magnetooptic Properties | 466 |
APPENDIX IV Fundamental Physical Constants | 492 |
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Expressions et termes fréquents
aluminate aluminum fluoride Appl Barium benzene beryllium Biaxial Boca Raton borate Cadmium Calcium carbon Cesium Chem Crystal system Crystalline Materials-continued Crystals-continued Cubic Fm3m Cubic Ia3d Data Density DFWM dn/dT Elastooptic Electrooptic Energy Energy g/cm³ GaAs gadolinium gallium garnet gases germanate Handbook of Laser Hoya IEEE index of refraction indium infrared Insoluble kg/mm² Lanthanum Laser Science Lett liquids Lithium lutetium magnesium Materials CRC Press measurements Mohs Monoclinic Monoclinic C2/c NDFWM ne² niobate no² Nonlinear optical nonlinear refractive index optical glasses Optical Materials CRC Orthorhombic Orthorhombic Pnma oxide phase conjugation phosphate Phys PMMA Potassium Quantum Electron Raman refractive index Relative spectrum Rubidium scandium Schott Science and Technology silicate Silicon SiO2 Slightly soluble Sodium Space group Strontium temperature Tetragonal Thermal conductivity thermal expansion Thermal Properties titanium Trigonal P321 two-photon absorption ultraviolet Uniaxial vanadate Verdet constant Wavelength Wavelength nm yttrium zinc ZnSe