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Koechner W. — Solid-State Laser Engineering
Koechner W. — Solid-State Laser Engineering



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Íàçâàíèå: Solid-State Laser Engineering

Àâòîð: Koechner W.

Àííîòàöèÿ:

Written from an industrial perspective, Solid-State Laser Engineering discusses in detail the characteristics, design, construction and performance of solid-state lasers. Emphasis is placed on engineering and practical considerations; phenomenological aspects using models are preferred to abstract mathematical derivations. Since its first edition almost 30 years ago this book has become the standard in the field of solid-state lasers for scientists, engineers and graduate students.

This new edition has been extensively revised and updated to account for recent developments in the areas of diode-laser pumping, laser materials and nonlinear crystals. Completely new sections have been added dealing with frequency control, the theory of mode-locking, femtosecond lasers, high efficiency harmonic generation, passive and acousto-optic Q-switching, semiconductor saturable absorber mirrors (SESAM) and periodically poled nonlinear crystals.


ßçûê: en

Ðóáðèêà: Òåõíîëîãèÿ/

Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö

ed2k: ed2k stats

Èçäàíèå: Sixth Revised and Updated Edition

Ãîä èçäàíèÿ: 2006

Êîëè÷åñòâî ñòðàíèö: 747

Äîáàâëåíà â êàòàëîã: 17.11.2009

Îïåðàöèè: Ïîëîæèòü íà ïîëêó | Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
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Ïðåäìåòíûé óêàçàòåëü
$AgGaSe_{2}$ nonlinear crystal      650 651
$Ba_{2}NaNb_{5}O_{15}$ crystal      595 611 621
$Co:MgF_{2}$ laser      82 83
$Cr:KZnF_{3}$ laser      82
$LiNbO_{3}$      506—510 603 611 612 616 651—655 662
$Nd:GdVO_{4}$ crystal      44
$Nd:YVO_{4}$ laser      69—73 416 417 423—425 468 528 623
$TEM_{mnq}$, $TEM_{plq}$ modes, definition      210—214
$ZnGeP_{2}$ nonlinear crystal      651
Absorption, definition      15 22—25
Absorption, definition, curves      58 64 66 72 78 85 89 92
Absorption, definition, efficiency, pump radiation      114 115 337 338 355 377 424
Acoustooptic, modulator      562 565 569—572
Acoustooptic, Q-switch      514—522
Actinides      50
Active mirror amplifier      471
Active mode locking      see "Modelocking"
Additive pulse mode locking      546—548
Airy disc      217
Alexandrite laser      81 84—88
Alignment sensitivity, resonator      235—238 295 296
Aluminate host      42
AM modelocking      560—563 569—572
Amplified spontaneous emission      117 118 195—199
Amplifier, pulse operation, chirped pulse      584—586
Amplifier, pulse operation, distortions, losses      190—200
Amplifier, pulse operation, multipass      177—180
Amplifier, pulse operation, Nd:Glass      171—177
Amplifier, pulse operation, Nd:YAG      163—171
Amplifier, pulse operation, regenerative      180—187
Amplifier, pulse operation, theory      158—163
Amplifier, steady-state operation      188—190
Amplitude fluctuation      see "Output fluctuations"
Aperture length      611 639
Arc lamp      see "Flashlamps" "Krypton
Astigmatism, resonator      250—252 552
Atomic energy level      see "Energy level"
Atomic line shapes      18—22
Axial modes      see "Longitudinal modes"
BBO crystal properties      612 616 637
Beam divergence, definition      215—217 225 226
Beam overlap efficiency      115 116 147 151 see
Beam quality factor M      225—227
BEL, laser host      44
Beryllate, laser host      44
Biaxial crystal      603 612
Birefringence, correction      242 294 453—457
Birefringence, electrically induced      499—508
Birefringence, thermally induced      445—451
Birefringent filter      297 298
Blackbody radiation      12 305
Bleachable dye      see "Saturable absorber"
Bohr's frequency relation      11
Boltzmann distribution      13 14 26
Bragg reflection      516—519
Brewster angle      250 251 544 553
Brightness, definition      158
Brillouin scattering      see "Stimulated Brillouin scattering"
Cavity dumping      529—533 564—568
CBO/CLBO crystal      617
CDA crystal      596
Ceramic, host material      45
Cerium      49
Charging unit, power supply      316—323
Chirped mirrors      578 579 581
Chromium lasers      81 82 see "Alexandrite
Circulating power      109—111 258
Cladding, active material      175 197 418
Coatings      see "Dielectric thin films"
Coherence length, frequency doubling      396
Coherence length, laser radiation      17 262 263
Coherence length, phase conjugation      674—676
Collision line broadening      19
Compensation, thermal effects      451—457
Concave-convex resonator      219 221 241—248
Concentric resonator      219 220
Confocal parameter      215
Confocal resonator      219 220
Continuous arc lamp      see "Krypton arc lamps"
Conversion factors      200 595 708—710
Coolant properties      482
Cooling techniques, arc lamps      301 304 313 335 336
Cooling techniques, conduction      367 402—404 407 485 486
Cooling techniques, diode arrays      302 346—350 358—361 395—407
Cooling techniques, gases, air      486 487
Cooling techniques, laser medium      481—487
Cooling techniques, liquids      382—392 481—485
Coupling/transfer efficiency      117 370 373—376
Cr:Forsterite laser      82 575 583
Cr:GSGG laser      81 82
Cr:LiCAF laser      92
Cr:LiSAF laser      82 91—94 575 582
Critical phase matching      610 611
Cross section, stimulated emission      24 25 32 55 61 62 68 71 74 84 90 93 96 100
CW arc lamps      see "Krypton arc lamps"
Czochralski crystal growth      59
Damage threshold      688—698
Damage threshold, Dielectric thin films      694—698
Damage threshold, laser crystals      688 689
Damage threshold, nonlinear crystals      690—694
Damage, optically induced      680—701
Decay time, resonator      34 35
Degenerate energy level      14
Dephasing factor, definition      597
Depolarization losses      446—457 505 511—513
Depopulation losses      117 118 194—199
Dichroic mirror      619 620 630 656—659
Dielectric thin films      279—282 578 694—698
Diffraction grating      584—586
Diffraction losses, resonator      223—225
Diode arrays      see "Laser diodes"
Dipolar line broadening      20
Disk laser amplifier      172 175—180 418—422 469—473 see
Dispersion compensation      576—579
Dispersive mirrors      see "Chirped mirrors"
Doppler broadening      21
Dye saturable absorber      522 523 534 535 542—546
Dysprosium      50
Edge pumped slab      467—469
Efficiency factors      112—123 143 147 151 167 171 394
Einstein coefficients      14 15 17 32
Electronic feedback loop      270 273 277 572—574
Electrooptic effect      499—508
End-pumped lasers      148—152 181 266 276 407—418 473—481 556 560 561 582
Energy extraction efficiency      116 117 161—166 170 171 184 492
Energy extraction, amplifier      160—167 176
Energy level, diagram      28 29 52 56 63 74 77 86 89 95 98
Energy level, nomenclature      45—48
Energy storage      118 163 170 491
Energy storage efficiency      118 158 170 173 491 see
Energy transfer input/output      112—118 382 394 420
Er:Glass laser      75—79
Er:YAG laser      73—75
Er:YLF laser      75
Erbium      48
Etalon      255 263—265
Europium      49
Excited state absorption      80 81 88 524 525
Explosion energy, flashlamp      311 312
Extraction efficiency      117 118 122 123 160—162 170 491 492
Eye damage      702—707
Fabry — Perot interferometer      255—259 558 see optical"
Face-pumped lasers      171—176 418—422 469—473
FAP laser host      43
Faraday effect      153
Faraday rotator      152 155 270 677
feedback loop      see "Electronic feedback loop"
Femtosecond lasers      555 575—584
Filament lamp      see "Tungsten filament lamp"
Finesse, interferometer      257
Flashlamps, construction      301 303 304
Flashlamps, cooling      304 313 336 384—392
Flashlamps, electrical characteristics      308 309
Flashlamps, failure modes, lifetime      309—314
Flashlamps, operating conditions      314 315
Flashlamps, optical characteristics      304—307
Fluorescence      36 107
Fluorescent lifetime      36 51 55 62 64 68 71 78 82 84 90 93 96 100
Fluorides, laser host      45
FM modelocking      563 564 572—575
Forbidden transition      31
Four-level laser      29 35 36 119—125
Fourier transform      539
Fractional thermal loading      423—425 479
Frequency chirp      518 540 564
Frequency control      274—276
Frequency doubling      see "Second-harmonic generation"
Frequency stability      277 278
Fresnel number      223 224 282 285
Fringe visibility      262
Fundamental mode, definition      215 216 see
g parameters, resonator      222 232—236 243
GaAlAs laser diodes      see "Laser diodes"
Gadolinium      44 49
Gain coefficient, definition      119 127 162
Gain saturation      108 109 122 188
Gain switching      133 134
Gain, amplifier      159—161
Garnet, laser host      42
Gaussian beam      215—217
Gaussian temporal profile      537 540
Giant pulse      see "Q-switch"
Glass, laser host      41
Ground level      27—30
GSGG, laser host      64—66
Harmonic generation      see "Second-harmonic generation"
Heat generation, laser material      423—426
Heat removal      see "Cooling techniques"
Heat transfer coefficient      427 428
Hemispherical resonator      219 240
Higher order modes      224—227
Hole burning      see "Spatial hole burning"
Holmium      49
Homogeneous line broadening      19
Hoop stress      438
Host materials      40—45
Idler wave      590 634 635
Index matching      see "Phase matching"
Indicatrix, ellipsoid      440 441 502 604—606
Inhomogenous line broadening      20—22
Injection seeding      268—271 647 662
Interferometer      see "Fabry — Perot interferometer"
Intracavity frequency doubling      618—624
Inversion reduction factor      36
Isolator      see "Optical isolator"
KDP crystal, properties      502—506 589 602 606 612 613 628 633
Kerr effect      201—203 501 548—556 591
Kerr lens mode locking      543 548—556
Kerr lens mode locking, sensitivity      549 552 553
Krypton arc lamps, electrical characteristics      336 337
Krypton arc lamps, mechanical design      301 335
Krypton arc lamps, spectral data      334 336—339
Krypton arc lamps, thermal considerations      335 336
KTP/KTA crystal properties      601—603 612 614 615 637 641 647—651 690—693
Large-radius mirror resonator      219
Laser amplifier      see "Amplifier"
Laser diode pumped systems, end pumped      148—154 266 273—275 407—418 630
Laser diode pumped systems, face pumped      179 180 367 421 472
Laser diode pumped systems, side pumped      139—148 165—171 184—188 287 393—407 567 631 656
Laser diodes      340—366
Laser diodes, arrays      302 345—351
Laser diodes, design      302 342—351
Laser diodes, lifetime      361—363
Laser diodes, spatial profile      351—353
Laser diodes, spectral properties      353—358
Laser diodes, thermal issues      347—350 358—361
Laser oscillator, circulating power      109—111
Laser oscillator, diode pumped      139—152
Laser oscillator, gain saturation      108 109
Laser oscillator, lamp pumped      134—139
Laser oscillator, output calculations      118—127
Laser oscillator, performance model      111—118
Laser oscillator, threshold      103—108
Laser rate equations      32—36
Laser safety      702—707
LBO crystal      612 615 616 624 637
Lifetime broadening      19
Light-pipe mode      199
Linewidth, broadening effects      19—22
Linewidth, control      263—268
Linewidth, Schalow — Townes limit      267
Longitudinal mode selection      263—268
Longitudinal modes      210 259—263
Lorentzian lineshape      21 22
M-factor      225—227
Metastable level      30 31
Microchip laser      276
Mirror mounts      279
Mode beating      271 623 624
Mode locking, active      560—575
Mode locking, active, system design      568—575
Mode locking, active, theory      560—568
Mode locking, active, transient      564—568
Mode locking, passive      542—560
Mode locking, passive, coupled cavity modes      546—548
Mode locking, passive, Kerr lens      548—556 580—583
Mode locking, passive, saturable dye      542—546
Mode locking, passive, SESAM      556—560 581 582
Mode locking, passive, theory      535—542
Mode matching efficiency      409 see
Mode patterns      212 214 230
Mode patterns, radius      215 218—220 224 226
Mode selection, longidudinal      263—273
Mode selection, transverse      227—231
Modeling software      254 255 278 398
Molybdates, laser host      44
Monolithic laser      154 265 266 270
MOPA design      156—158 166—170 172 670 677
Nd:BEL crystal      44
Nd:Cr:GSGG laser      64—66
Nd:Glass laser, material properties      61—64
Nd:Glass laser, systems      171—176 418—420 463—465 469—471
Nd:SOAP crystal      43
Nd:YAB laser      619
Nd:YAG laser, damage      203—206 688 689
Nd:YAG laser, diode side pumped      139—148 165—171 184—187 395—407 567 656
Nd:YAG laser, end pumped      148—152 266 276 407—418
Nd:YAG laser, flashlamp pumped      134—139 164—166 384—387 466
Nd:YAG laser, material properties      54—61
Nd:YAG laser, thermal effects      428 439 445 447—450 474—481
Nd:YALO laser      42 43 677
Nd:YLF laser      66—69 181
Neodymium      48
Noncritical phase matching      610 611
Nonlinear coefficient      200 548 549 575
Nonlinear crystals, properties      611—617 649—655
Nonlinear drive, definition      597
Nonlinear optical effects      587—592
Nonlinear refractive index      200
Nonspherical aberration      191—193
Nonuniform pumping      190 378—381 397 431 450—452
Optical coatings      see "Dielectric thin films"
Optical isolator      152 153 181 186 270 677
Optical parametric oscillator      634—662
Optical parametric oscillator, configurations      634—637
Optical parametric oscillator, crystals      649—652
Optical parametric oscillator, examples      641—643 645 655—662
Optical parametric oscillator, performance modeling      637—646
Optical parametric oscillator, phase matching      634 638 641 646 653
Optical parametric oscillator, quasi phase matching      652—655
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