Springer Optical Sciences

By: Valentin G. Dmitriev, Gagik G. Gurzadyan, David N. Nikogosyan

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Hardcover | 21 July 1999 | Edition Number 3

At a Glance

Hardcover
436 Pages

Edition Type
Revised

Dimensions(cm)
24.77 x 16.51 x 3.18

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Since the invention of the first laser 30 years ago, the frequency conversion of laser radiation in nonlinear optical crystals has become an important technique widely used in quantum electronics and laser physics for solving various scientific and engineering problems. The fundamental physics of three-wave light interactions in nonlinear optical crystals is now well understood. This has enabled the production of various harmonic generators, sum-and difference frequency generators, and optical parametric oscillators based on nonlinear optical crystals that are now commercially available. At the same time, scientists continue an active search for novel, highly efficient nonlinear optical materials. Therefore, in our opinion, there is a great need for a handbook of nonlinear optical crystals, intended for specialists and practitioners with an engineering background. This book contains a complete description of the properties and applications of all nonliner optical crystals of practical importance reported in the literature up to the beginning of 1990. In addition, it contains the most important equations for calculating the main parameters (such as phase-matching direction, effective nonlinearity, and conversion efficiency) of nonlinear frequency converters. Dolgoprudnyi, Yerevan, Troitzk v. G. Dmitriev USSR G. G. Gurzadyan October 1990 D. N. Nikogosyan Contents 1 Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Optics of Nonlinear Crystals. . . . . . . . . . . . . . . . . . . . . . . . 3 . . . . . .

Industry Reviews

"This is the third (revised) edition of this book by the same authors. The revision has become necessary because of the many developments in the subject over the last few years. The book is very well written, well explained and well illustrated.
...The authors have collated an impressive collection of data from an even more impressive number of sources (1351). This edition must surely be the benchmark or reference handbook for all those in the non-linear optical field..."
Optics and Lasers in Engineering, 1999/32 "It contains a complete description of the properties and applications of all nonlinear optical crystals of practical importance reported in the literature up to now. ...an excellent reference-book." G.B. Rampal, Physicalia, 2000, 36,3

FROM THE REVIEWS OF THE SECOND EDITION
"This book is the most comprehensive source on crystal data available and certainly meets the requirements of engineers and scientists who word on development of laser resonators and OPOs."
(OPTICS & PHOTONICS NEWS)

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Introduction	p. 1
Optics of Nonlinear Crystals	p. 3
Three- and Four-Wave (Three- and Four-Frequency) Interactions in Nonlinear Media	p. 3
Phase-Matching Conditions	p. 5
Optics of Uniaxial Crystals	p. 6
Types of Phase Matching in Uniaxial Crystals	p. 10
Calculation of Phase-Matching Angles in Uniaxial Crystals	p. 13
Reflection and Refraction of Light Waves at the Surfaces of Uniaxial Crystals	p. 14
Optics of Biaxial Crystals	p. 16
Types of Phase Matching in Biaxial Crystals	p. 18
Calculation of Phase-Matching Angles in Biaxial Crystals	p. 19
Crystal Symmetry and Effective Nonlinearity: Uniaxial Crystals	p. 23
Crystal Symmetry and Effective Nonlinearity: Biaxial Crystals	p. 25
Theory of Nonlinear Frequency-Conversion Efficiency	p. 32
Wave Mismatch and Phase-Matching Bandwidth	p. 40
Calculation of Nonlinear Frequency-Conversion Efficiency in Some Special Cases	p. 48
Plane-Wave Fixed-Field Approximation	p. 49
Fundamental Wave Depletion ("Nonlinear Regime")	p. 52
SHG of a Divergent Fundamental Radiation Beam in the Fixed-Field Approximation	p. 54
SHG of a Divergent Fundamental Radiation Beam in the Nonlinear Regime	p. 55
Fixed-Intensity Approximation	p. 57
Frequency Conversion of Ultrashort Laser Pulses	p. 59
Frequency Conversion of Laser Beams with Limited Aperture in the Stationary Regime	p. 61
Linear Absorption	p. 65
Additional Comments	p. 65
Properties of Nonlinear Optical Crystals	p. 67
Basic Nonlinear Optical Crystals	p. 68
LiB₃O₅, Lithium Triborate (LBO)	p. 68
KH₂PO₄, Potassium Dihydrogen Phosphate (KDP)	p. 78
KD₂PO₄, Deuterated Potassium Dihydrogen Phosphate (DKDP)	p. 85
NH₄H₂PO₄, Ammonium Dihydrogen Phosphate (ADP)	p. 90
ß-BaB₂O₄, Beta-Barium Borate (BBO)	p. 96
LiIO₃, Lithium Iodate	p. 103
KTiOPO₄, Potassium Titanyl Phosphate (KTP)	p. 107
LiNbO₃, Lithium Niobate	p. 119
KNbO₃, Potassium Niobate	p. 126
AgGaS₂, Silver Thiogallate	p. 132
ZnGeP₂, Zinc Germanium Phosphide	p. 136
Frequently Used Nonlinear Optical Crystals	p. 142
KB₅O₈ · 4H₂O, Potassium Pentaborate Tetrahydrate (KB5)	p. 142
CO(NH₂)₂, Urea	p. 146
CsH₂AsO₄, Cesium Dihydrogen Arsenate (CDA)	p. 149
CsD₂AsO₄, Deuterated Cesium Dihydrogen Arsenate (DCDA)	p. 152
KTiOAsO₄, Potassium Titanyl Arsenate (KTA)	p. 156
MgO : LiNbO₃, Magnesium-Oxide-Doped Lithium Niobate	p. 159
Ag₃AsS₃, Proustite	p. 162
GaSe, Gallium Selenide	p. 166
AgGaSe₂, Silver Gallium Selenide	p. 169
CdSe, Cadmium Selenide	p. 173
CdGeAs₂, Cadmium Germanium Arsenide	p. 176
Other Inorganic Nonlinear Optical Crystals	p. 179
KB₅O₈ · 4D₂O, Deuterated Potassium Pentaborate Tetrahydrate (DKB5)	p. 179
CsB₃O₅, Cesium Triborate (CBO)	p. 180
BeSO₄ · 4H₂O, Beryllium Sulfate	p. 182
MgBaF₄, Magnesium Barium Fluoride	p. 184
NH₄D₂PO₄, Deuterated Ammonium Dihydrogen Phosphate (DADP)	p. 186
RbH₂PO₄, Rubidium Dihydrogen Phosphate (RDP)	p. 188
RbD₂PO₄, Deuterated Rubidium Dihydrogen Phosphate (DRDP)	p. 192
KH₂AsO₄, Potassium Dihydrogen Arsenate (KDA)	p. 192
KD₂AsO₄, Deuterated Potassium Dihydrogen Arsenate (DKDA)	p. 195
NH₄H₂ASO₄, Ammonium Dihydrogen Arsenate (ADA)	p. 196
NH₄D₂AsO₄, Deuterated Ammonium Dihydrogen Arsenate (DADA)	p. 198
RbH₂AsO₄, Rubidium Dihydrogen Arsenate (RDA)	p. 199
RbD₂AsO₄, Deuterated Rubidium Dihydrogen Arsenate (DRDA)	p. 202
LiCOOH · H₂O, Lithium Formate Monohydrate (LFM)	p. 204
NaCOOH, Sodium Formate	p. 207
Ba(COOH)₂, Barium Formate	p. 209
Sr(COOH)₂, Strontium Formate	p. 210
Sr(COO?)₂ · 2H₂O, Strontium Formate Dihydrate	p. 211
LiGaO₂, Lithium Gallium Oxide	p. 213
¿-HIO₃, ¿-Iodic Acid	p. 214
K₂La(NO₃)₅ · 2H₂O, Potassium Lanthanum Nitrate Dihydrate (KLN)	p. 217
CsTiOAsO₄, Cesium Titanyl Arsenate (CTA)	p. 220
NaNO₂, Sodium Nitrite	p. 221
Ba₂NaNb₅O₁₅, Barium Sodium Niobate ("Banana")	p. 224
K₂Ce(NO₃)₅ · 2H₂O, Potassium Cerium Nitrate Dihydrate (KCN)	p. 227
K₃Li₂Nb₅O₁₅, Potassium Lithium Niobate	p. 229
HgGa₂S₄, Mercury Thiogallate	p. 231
HgS, Cinnibar	p. 233
Ag₃SbS₃, Pyrargyrite	p. 235
Se, Selenium	p. 236
Tl₃AsS₃, Thallium Arsenic Selenide (TAS)	p. 238
Te, Tellurium	p. 240
Other Organic Nonlinear Optical Crystals	p. 243
C₁₂H₂₂O₁₁, Sucrose (Saccharose)	p. 243
L-Arginine Phosphate Monohydrate (LAP)	p. 245
Deuterated L-Arginine Phosphate Monohydrate (DLAP)	p. 247
L-Pyrrolidone-2-carboxylic Acid (L-PCA)	p. 250
CaC₄H₄O₆ · 4H₂O, Calcium Tartrate Tetrahydrate (L-CTT)	p. 251
(NH₄)₂C₂O₄ · H₂O, Ammonium Oxalate (AO)	p. 253
m-Bis(aminomethyl)benzene (BAMB)	p. 254
3-Methoxy-4-hydroxy-benzaldehyde (MHBA)	p. 256
2-Furyl Methacrylic Anhydride (FMA)	p. 258
3-Methyl-4-nitropyridine-1-oxide (POM)	p. 259
Thienylchalcone (T-17)	p. 261
5-Nitrouracil (5NU)	p. 263
2-(N-Prolinol)-5-nitropyridine (PNP)	p. 265
2-Cyclooctylamino-5-nitropyridine (COANP)	p. 266
L-N-(5-Nitro-2-pyridyl) leucinol (NPLO)	p. 268
C₆H₄(NO₂)₂, m-Dinitrobenzene (MDNB)	p. 270
4-(N,N-Dimethylamino)-3-acetamidonitrobenzene (DAN)	p. 272
Methyl-(2,4-dinitrophenyl)-aminopropanoate (MAP)	p. 274
m-Nitroaniline (MNA)	p. 276
N-(4-Nitrophenyl)-N-methylaminoacetonitrile (NPAN)	p. 278
N-(4-Nitrophenyl)-L-prolinol (NPP)	p. 280
3-Methyl-4-methoxy-4'-nitrostilbene (MMONS)	p. 281
Properties of Crystalline Quartz (¿-SiO₂)	p. 283
New Developments	p. 286
Applications of Nonlinear Crystals	p. 289
Generation of Neodymium Laser Harmonics	p. 289
Second-Harmonic Generation of Neodymium Laser Radiation in Inorganic Crystals	p. 289
Second-Harmonic Generation of 1,064 ¿m Radiation in Organic Crystals	p. 294
Intracavity SHG	p. 296
Third-Harmonic Generation	p. 298
Fourth-Harmonic Generation	p. 301
Fifth-Harmonic Generation	p. 301
Harmonic Generation of 1,318 ¿m Radiation	p. 304
Harmonic Generation of High-Power Large-Aperture Neodymium Glass Laser Radiation	p. 306
"Angle-Detuning" Scheme	p. 306
"Polarization-Mismatch" Scheme	p. 306
"Polarization-Bypass" Scheme	p. 308
Comparison of Schemes	p. 308
Experimental Results	p. 308
"Quadrature" Scheme	p. 310
Harmonic Generation for Other Laser Sources	p. 311
Ruby Laser	p. 311
Ti:sapphire Laser	p. 312
Semiconductor Lasers	p. 312
Dye Lasers	p. 315
Gas Lasers	p. 320
Iodine Laser	p. 321
CO₂ Laser	p. 324
Other Lasers	p. 324
Frequency Conversion of Femtosecond Pulses	p. 326
Sum-Frequency Generation	p. 327
Up-Conversion to the UV Region	p. 328
Infrared Up-Conversion	p. 333
Up-Conversion of CO₂ Laser Radiation to the Near IR and Visible Regions	p. 336
Difference Frequency Generation	p. 339
DFG in the Visible Region	p. 339
DFG in the Mid IR Region	p. 340
DFG in the Far IR Region	p. 344
Optical Parametric Oscillation	p. 345
OPO in the UV, Visible, and Near IR Spectral Regions	p. 345
OPO in the Mid IR Region	p. 359
Conversion of OPO Radiation to the UV Region	p. 360
Stimulated Raman Scattering and Picosecond Continuum Generation in Crystals	p. 362
References	p. 367
Appendix: List of Commonly Used Laser Wavelengths	p. 405
Subject Index	p. 407
Table of Contents provided by Publisher. All Rights Reserved.

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