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Poprawe R. (ed.), Loosen P., Bachmann F. — High Power Diode Lasers: Technology and Applications
Poprawe R. (ed.), Loosen P., Bachmann F. — High Power Diode Lasers: Technology and Applications



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Название: High Power Diode Lasers: Technology and Applications

Авторы: Poprawe R. (ed.), Loosen P., Bachmann F.

Аннотация:

The book summarizes the work and the results of a five year government funded research project as well as subsequent research results about high power diode laser systems and their application in the field of materials processing. The entire technology chain, starting from the semiconductor technology, over cooling mounting and assembly, beam shaping and system technology down to the applications in processing of several kinds of materials (metals, polymers) are treated in the book. Theoretical models, a wide field of important parameters and practical hints and tips are provided. The book is the most extensive work on high power diode laser systems and materials processing applications.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2007

Количество страниц: 554

Добавлена в каталог: 26.02.2008

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
2D-light-section sensor      299—301
3D-light-section sensor, 301—302 16MnCr5      307 308 309
ABCD matrix      186
Aberration      194
Absorptance      427
Absorption      287 338 389 391 394 427 449 469 493
Absorption coefficient      378
Absorption of aluminum      304
Absorption of polymers      363 364 370 375 376
Absorption of steel      303—304
Absorptivity      390 391 403
Acceleration factor      53
Accessibility      330
Accuracy      388
Activation energy      86
Additives      363 375
Aeronautical applications      333—334
Air knife      291 418
Alloying      432 456 482 483
AlMg5      397
Aluminum      304 305 313 322—323 324 339 391 397
Aluminum alloys      321 322
Aluminum fittings      333
Aluminum oxide      105
Amorphous thermoplastics      376
Angle of incidence      318 319 391 428 496 517
annealing      426 434 459 470 481
Annular diode laser beam      268—272 314—315 320 388 406 407 408 409 412
Anti-reflection coating      61 66
Aperture filling      149
Argon      310 312 453
Arrhenius relationship      207
Aspect ratio      288 289 306 307 308 309 312 315
Assist gas jet      389 391 393—394
Assist gas pressure      393
Astigmatism      58—59 67—68 190—195 233
Astigmatism measurement      59 233
Atmospheric plasma spraying (APS)      503 522
AuSn      80 95
Austenite      314
Autogenous cutting      405 406 408 409 410 411
Autogenous cutting cutting speeds      406
Automotive applications      324—333
Axial annular welds      321
Axle carrier      330
Ball grid arrays      See BGA
Band gap      5—10
Band material      400
Band structure      6 7 10 43
Band tension      401—405
Band-pass filter      146
Band-stop filter      146
Batch process      79
Bead-on-plate welding      303—306
Beam caustic      200
Beam characteristics      181
Beam divergence angle      37
Beam homogenization      400
Beam intensity      389 416
Beam intensity distribution      310
Beam parameter product (BPP)      121 159 166 175 181 193 389 391 393
Beam patterns      405
Beam positional stability      204—205
Beam propagation      183—186 379 394
Beam propagation parameter (M2)      56 65 66 67
Beam propagation ratio (M2)      182 193 196 203—204
Beam properties      394
Beam quality      63—66 121 152—153 388 389 391 409 416
Beam radius      122
Beam shaping      162 386
Beam splitter      145
Beam symmetrization      162
Beam width      182
Beam-director      168
Beam-guiding system      399
Beam-splitter cubes      142
Bearing cross section      318
Bending radius      418
Beryllia (BeO)      105 357
BGAs (ball grid arrays)      355 356
Biological contamination      101
Birefringent crystals      142
Boundary feeding rates (BFR)      304
Boundary layer      406
Brazing      285 342 343 344 345 346 347—349
Brazing alloys      346—347
Brazing filler      342 343 344 348
Brazing head      345
Brazing seam      346—347
Brazing system      347
Brazing velocity      346
Bridge formation      343
Bridged gap      383
Brightness      56 63—66 67 122 182
Broad area emitters and arrays      47—55
Broad area lasers      15
Bumps      355 356
Burning front      406
Burning proportion      406
Burnoff-stabilization      412
Burnoff-stabilized cutting      411
Burnoff-stabilized laser beam oxygen cutting      405 407 409 410
Burr      398 404
Burr formation      393 398
Burst pressure      374 383 384 385
Butt joint      322 323 363 364
Camera systems      196—197
CAN-bus      256 276
Car body      328
Carbon black concentration (cbc)      378 383 385
Catastrophic optical mirror damage (COMD)      48 56 206
Ceramics      389 413 425
Ceramics, materials      425
Characteristic temperature      19
Chip formation      413 419
Chip section      421
Circular spot welds      320
Cladding      427 482 483
Cladding rate      527
Cladding with wire      488
Clamping      345
Clamping device      363—364
Clamping wheels      294 295
CO2 laser      326 332 370 388 399 407 409 410 411
CO2, 313      
coating      346—347 482 499 508 522
Coaxial shielding gas nozzle      293 294
Cobalt-based alloys      413 423 425
Coefficient of thermal expansion (CTE)      104 107
Coherence      183 194
Coherent coupling      175—177
Coil material      388
Cold forming tool steels      419
Collimation lens      130 136
Collision      330
Color additives      376
Combustion      406
Complex optical index      57
COMPOSITES      413
Compressively strained      10 11
Conduction band      6
Conduction cooling      87—92
Confinement factor      13 64
Conical nozzle      407
Connection length      318 319 346
Constructional laser-adapted design of joining partners      374
Contact conditions      415
Contact sensors      297
Contour cuts      396 398 399 410 411
Contour welding      365—366 371 382—383 385 387
Convection-cooled heat sinks      94 95 96
Conventional finishing      423
Conventional machining      412
Conventional milling      423
Conversion efficiency      18
Cooling fluid      96
copper      337 390
Corrected far-field      58—59 67—68
Corrosion      98 99
costs      336 399 400
Cotton fabric      396 397 398
Crack      471 504 520 525
Cross member      331
Cross section      307 308 311 312 315 316 322 323 326 339 346—349 404 405
Cross-jet      291 292
Cross-jet nozzle      291 292 407
Cross-talk      253
Crystalline growth      26
Crystalline quality      27
Crystalline thermoplastics      376
Crystallinity      375
CTE matching      102
CTE measurement      114
CuAl5Ni2      346—347
CuSi3      346—347
Cut edge      389 398 403 404 406 410 411 412
Cut edge roughness      407
Cut geometry      388
Cut kerf      389 411
Cut kerf width      398 407 410
Cut quality      410
Cutting      387 390 391
Cutting depth      423
Cutting force      419
Cutting front      390 391 406
Cutting gas jet      394
Cutting head      391 393
Cutting length      401
Cutting model      394
Cutting nozzle      393 406 407
Cutting process      388
Cutting speed      388 390 393 394 407 410 413 420 421 425
Cutting time      401 402 403 422
Cutting track      401
Cutting-to-length      388
CVD diamond      102
Decomposition      384
decomposition temperature      371 376
Deep-penetration welding      286 288 289 290 312 315 324 326 340—341
Defocusing      322
Degradation      54 63 80 86 132 163 164 170 206 207
Degradation mechanism      86
Degradation process      86
Degree of absorption      338 363
Degree of crystallinity      376
Degree of reflection      363
Dendrite formation      289
Dendrites      308
Deposition      482 503
Deposition of dielectrics      29—31
Depth of cut      420 421 424
Design aspects      48
Design parameters      49
Determination, of optical properties      378
DI (de-ionized) water      100
diamond      106
Diamond heat spreaders      101—104
Diamond substrate      113
Difficult to machine materials      424 425
Diffraction      194
Diffusion      406
Dilution      489 490 527
Diode laser cutting plotter      392
Diode lasers      1 10 122 125 127 128—130 136 142 206 209—210
Diode lasers, application      285 537
Diode lasers, bars, packaging of      75 150
Diode lasers, beam quality      162—177
Diode lasers, broad area emitters and arrays      47—55
Diode lasers, chip characterization methods / measurements      33—47
Diode lasers, high-brightness emitters and arrays      55—70
Diode lasers, homogeneization, of high power diode-lasers      138—141
Diode lasers, manufacturing technology      25—33
Diode lasers, principles, of operation      5
Diode lasers, stacking      147—162
Diode lasers, system      215 388
Direct application      417
Direct integration      418
Distortion      290 328 329 340 341 342
Distributed-feedback (DFB) lasers      56
Divergence angle      38 40 129—133
Double-wheel system      294—295
Dyes      375
Economic efficiency      399
Edge-tracking sensors      296 299—302
Effective thermal conductivity      107
Efficiency      34
Efficiency model      19
Electric characteristics, of diode lasers      49—53
electric field      183
Electric steel      396 397 398 401 402 403 404
Electro-lumiscence spectroscopy      112
Electro-optical characterization      34—37 61—63
Electrochemical corrosion      100—101
Electroluminescence      43
Electromigration      80
Electronic packaging      349
Elements      287
Emission Spectrum      50—51
energy bands      5 111
Energy input per unit length      377 383 384 420
Epitaxy      26
Erosion      99
Etching      29
evaporation      288 390
Excessive melting      408
Exothermal reaction      388 391
Expansion-matching      102 104 105 106 117
f-number      392 393 409
F-Theta lens      353 367
Fabry — Perot resonators      16
Facet reflectivity      66
Far-field      14 37—40 52 59 130 193 194 266
Far-field astigmatism      58—59 67—69
Far-field corrected      58 67—68
Far-field divergence angle      122
Far-field intensity distribution      37 39 138—141 176
Far-field measurement      37 201
Far-field power density distribution      187 201
Fast axis collimation      128—131
Fast-axis      37 53 306 309 316 318 323
Ferrite      313
Fiber coupling      152 162 325 331 332—333 334—335 388 417 418
Fiber-reinforced ceramics      423
Fiber-reinforced metals      413
Fiber-reinforced polymers      251 362
Filamentation      57
Filler metal      345
Fillet weld      320 328 329 330 346
Fillet weld at lap joint      318 319
Filling factor      123 136 137 147—149 227 252 257 279
Five-axes machining      416
Five-axes milling      415
fixed costs      399
Flame cutting      272 405 412
Flame hardening      426 433
Flame retardants      376
Flexible beam guiding      405
Flexprints      355
Flip-chips      355 356
Flow rate      98 311
1 2 3 4
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