Semiconductor disk lasers: physics and technology
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
WILEY-VCH
2010
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| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | XV, 314 S. Ill., graph. Darst. |
| ISBN: | 9783527409334 |
Internformat
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Datensatz im Suchindex
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IMAGE 1
CONTENTS
PREFACE XI LIST OF CONTRIBUTORS XIII
1 VECSEL SEMICONDUCTOR LASERS: A PATH TO HIGH-POWER, QUALITY BEAM AND UV
TO IR WAVELENGTH BY DESIGN 1 MARK KUZNETSOV
1.1 INTRODUCTION 1
1.2 WHAT ARE VECSEL SEMICONDUCTOR LASERS 2 1.2.1 HISTORY OF VECSELS:
SEMICONDUCTOR LASERS, OPTICAL PUMPING, AND EXTERNAL CAVITY 2 1.2.2 BASIC
PRINCIPLES OF OPERATION: VECSEL STRUCTURE AND FUNCTION 6 1.2.3 BASIC
PROPERTIES OF VECSEL LASERS: POWER SCALING, BEAM QUALITY,
AND INTRACAVITY OPTICAL ELEMENTS 9 1.2.3.1 POWER SCALING 9 1.2.3.2 BEAM
QUALITY 10 1.2.3.3 LASER FUNCTIONAL VERSATILITY THROUGH INTRACAVITY
OPTICAL ELEMENTS 11
1.2.4 VECSEL WAVELENGTH VERSATILITY THROUGH MATERIALS AND NONLINEAR
OPTICS 12 1.2.4.1 WAVELENGTH VERSATILITY THROUGH SEMICONDUCTOR MATERIALS
AND STRUCTURES 12 1.2.4.2 WAVELENGTH VERSATILITY THROUGH NONLINEAR
OPTICAL CONVERSION 14 1.3 HOW DO YOU MAKE A VECSEL LASER 16 1.3.1
SEMICONDUCTOR GAIN MEDIUM AND ON-CHIP BRAGG MIRROR 16 1.3.1.1
SEMICONDUCTOR GAIN DESIGN FOR VECSELS 26 1.3.1.2 ON-CHIP MULTILAYER
LASER BRAGG MIRROR 21 1.3.1.3 SEMICONDUCTOR WAFER STRUCTURE 22 1.3.2
OPTICAL CAVITY: GEOMETRY, MODE CONTROL, AND INTRACAVITY ELEMENTS 24
1.3.3 OPTICAL AND ELECTRICAL PUMPING 29 1.3.4 VECSEL LASER
CHARACTERIZATION 33 1.4 DEMONSTRATED PERFORMANCE OF VECSELS AND FUTURE
DIRECTIONS 38
BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/991677609
DIGITALISIERT DURCH
IMAGE 2
VI CONTENTS
1.4.1 DEMONSTRATED POWER SCALING AND WAVELENGTH COVERAGE 38
1.4.2 COMMERCIAL APPLICATIONS 45 1.4.3 CURRENT AND FUTURE RESEARCH
DIRECTIONS 48 1.4.4 FUTURE OF VECSEL LASERS: SCALABLE POWER WITH BEAM
QUALITY FROM UV TO IR 54
REFERENCES 57
2 THERMAL MANAGEMENT, STRUCTURE DESIGN, AND INTEGRATION CONSIDERATIONS
FOR VECSELS 73 STEPHANE CALVEZ, JENNIFER E. HASTIE, ALANJ. KEMP, NICOLAS
LAURAND, AND MARTIN D. DAWSON 2.1 INTRODUCTION 73
2.2 VECSEL STRUCTURE DESIGN 74 2.2.1 MATERIAL SYSTEM SELECTION 74 2.2.2
GAIN 76
2.2.3 MIRRORS 79
2.2.4 SUBCAVITY DESIGNS 80 2.2.5 GROWTH 81
2.2.6 STRUCTURE CHARACTERIZATION 82 2.2.7 LASER CAVITY 83
2.3 THERMAL MANAGEMENT 84
2.3.1 INTRODUCTION: WHY IS THERMAL MANAGEMENT IMPORTANT? 84 2.3.2
THERMAL MANAGEMENT STRATEGIES IN VECSELS 85 2.3.3 MODELING OF HEAT FLOW
IN VECSELS: GUIDELINES 87 2.3.4 THE THIN DEVICE AND HEAT SPREADER
APPROACHES AT 1 AND 2 \IM 87
2.3.5 IMPORTANT PARAMETERS: THE THERMAL CONDUCTIVITY OF THE MIRROR
STRUCTURE, SUBMOUNT, AND HEAT SPREADER 89 2.3.6 POWER SCALING OF VECSELS
91 2.3.7 WAVELENGTH VERSATILITY 94 2.4 LASER PERFORMANCE AND RESULTS 96
2.4.1 POWER 96
2.4.2 EFFICIENCY 100
2.4.3 TUNING 103
2.5 INTEGRATION 205
2.5.1 MICROCHIP 105
2.5.2 PUMP INTEGRATION 107
2.5.3 FIBER-TUNABLE VECSELS 209 2.6 CONCLUSIONS 212
REFERENCES 212
3 RED SEMICONDUCTOR DISK LASERS BY INTRACAVITY FREQUENCY CONVERSION 119
OLEG OKHOTNIKOV AND MIRCEA GUINA 3.1 INTRODUCTION 119
3.2 SDL WITH FREQUENCY DOUBLING 222
IMAGE 3
CONTENTS VII
3.2.1 GENERAL PRINCIPLE OF FREQUENCY DOUBLING 222
3.2.2 POWER SCALING OF SDLS 124 3.3 SDL FREQUENCY DOUBLED TO RED 226
3.3.1 DILUTE NITRIDE HETEROSTRUCTURES FOR 1.2 [XM LIGHT EMISSION 227
3.3.2 PLASMA-ASSISTED MBE GROWTH OF DILUTE NITRIDES 228 3.3.3 DESIGN AND
CHARACTERISTICS OF DILUTE NITRIDE GAIN MEDIA 130 3.3.4 PERFORMANCE OF
1220 NM SDL 133 3.3.5 SDL INTRACAVITY LIGHT CONVERSION TO RED-ORANGE 236
3.4 CONCLUSIONS 239
REFERENCES 139
4 LONG-WAVELENGTH CASB DISK LASERS 243 BENNO ROESENER, MARCEL RATTUNDE,
JOHN-MARK HOPKINS, DAVID BURNS, AND JOACHIM WAGNER 4.1 INTRODUCTION 243
4.2 THE III-SB MATERIAL SYSTEM 244 4.3 EPITAXIAL LAYER DESIGN AND GROWTH
OF III-SB DISK LASER STRUCTURES 246 4.3.1 BASIC STRUCTURAL LAYOUT 147
4.3.2 SAMPLE GROWTH AND POST-GROWTH ANALYSIS 249 4.3.3 EPITAXIAL DESIGN
OF IN-WELL-PUMPED SDLS 253 4.3.4 SB-BASED ACTIVE REGIONS ON GAAS/ALGAAS
DBRS 255 4.4 HIGH-POWER 2.X URN DISK LASERS 257
4.4.1 INITIAL EXPERIMENTS 257 4.4.2 SB-BASED SDLS USING INTRACAVITY HEAT
SPREADERS 158 4.4.3 IN-WELL-PUMPED SB-BASED SEMICONDUCTOR DISK LASERS
263 4.4.4 SB-BASED SEMICONDUCTOR DISK LASERS ON GAAS SUBSTRATES 166 4.5
TUNABLE, SINGLE-FREQUENCY LASERS 267 4.5.1 TUNABILITY 168
4.5.2 SINGLE-FREQUENCY OPERATION 172 4.5.3 EXPERIMENTAL RESULTS OF A 2.3
URN SINGLE-FREQUENCY SDL 276 4.6 DISK LASERS AT AND ABOVE 3 URN
WAVELENGTH 279 4.7 CONCLUSIONS 179
REFERENCES 282
5 SEMICONDUCTOR DISK LASERS BASED ON QUANTUM DOTS 287 UDO W. POHL AND
DIETER BIMBERG 5.1 INTRODUCTION 287
5.2 SIZE QUANTIZATION IN OPTICAL GAIN MEDIA 287 5.2.1 QUANTUM DOTS IN
LASERS 289 5.2.2 SPECIES OF QUANTUM DOTS 292 5.2.3 ENERGIES OF CONFINED
CHARGE CARRIERS 192
5.2.4 QUANTUM DOT LASERS 196 5.2.4.1 EDGE-EMITTING QUANTUM DOT LASERS
196 5.2.4.2 SURFACE-EMITTING QUANTUM DOT LASERS 198
IMAGE 4
VILI CONTENTS
5.3 DEVELOPMENT OF DISK LASERS BASED ON QUANTUM DOTS 200
5.3.1 CONCEPTS OF GAIN STRUCTURES 200 5.3.2 ADJUSTMENT OF QUANTUM DOT
EMISSION WAVELENGTH 202 5.3.2.1 TUNING OF STRANSKI-KRASTANOW QUANTUM
DOTS 203 5.3.2.2 TUNING OF SUBMONOLAYER QUANTUM DOTS 204
5.3.3 CHARACTERISTICS OF QUANTUM DOT DISK LASERS 205 5.3.3.1 DISK LASERS
WITH STRANSKI-KRASTANOW QUANTUM DOTS 205 5.3.3.2 DISK LASERS WITH
SUBMONOLAYER QUANTUM DOTS 207 5.4 CONCLUSIONS 207
REFERENCES 208
6 MODE-LOCKED SEMICONDUCTOR DISK LASERS 223 THOMAS SUEDMEYER, DERANJ.H.C
MAAS, AND URSULA KELLER 6.1 INTRODUCTION 213
6.1.1 ULTRAFAST LASERS 213 6.1.2 ULTRAFAST SEMICONDUCTOR LASERS 225
6.1.3 APPLICATION AREAS 216
6.2 SESAM MODE LOCKING OF SEMICONDUCTOR DISK LASERS 229 6.2.1
MACROSCOPIC KEY PARAMETERS OF A SESAM 220 6.2.1.1 NONLINEAR OPTICAL
REFLECTIVITY 220 6.2.1.2 TEMPORAL SESAM RESPONSE 225
6.2.2 PULSE FORMATION 227
6.2.2.1 MODEL FOR THE PULSE SHAPING 229 6.2.2.2 MODE-LOCKING STABILITY
AND THE IMPORTANCE OF GAIN AND SESAM SATURATION 231 6.2.2.3 IMPORTANCE
OF GROUP DELAY DISPERSION 232
6.2.3 SESAM DESIGNS 233 6.2.3.1 SESAM STRUCTURE FOR FIELD ENHANCEMENT
CONTROL 233 6.2.3.2 COMPARISON OF QUANTUM WEILAND QUANTUM DOT SESAMS 236
6.3 MODE LOCKING RESULTS 239
6.3.1 INTRODUCTION 239
6.3.2 MODE-LOCKED VECSELS WITH HIGH AVERAGE OUTPUT POWER 240 6.3.2.1
POWER SCALING OF MODE-LOCKED VECSELS 240 6.3.2.2 EXPERIMENTAL RESULTS
242 6.3.2.3 OUTLOOK 243
6.3.3 VECSEL MODE LOCKING AT HIGH REPETITION RATES 244 6.3.3.1 MODE
LOCKING WITH SIMILAR AREA ON GAIN AND ABSORBER (1:1 MODE LOCKING) 245
6.3.3.2 MODE-LOCKED VECSELS WITH UP TO 50 GHZ 245
6.3.3.3 OUTLOOK 246 6.3.4 FEMTOSECOND MODE-LOCKED VECSELS 246 6.3.4.1
INTRODUCTION 246 6.3.4.2 MODE LOCKING RESULTS 247 6.3.5 ELECTRICALLY
PUMPED MODE-LOCKED VECSELS 247
IMAGE 5
CONTENTS
6.4 MODE-LOCKED INTEGRATED EXTERNAL-CAVITY SURFACE-EMITTING
LASER (MIXSEL) 248 6.4.1 INTRODUCTION 248
6.4.2 INTEGRATION CHALLENGES 249 6.4.3 RESULTS 252
6.4.4 OUTLOOK 252
6.5 SUMMARY AND OUTLOOK 254
REFERENCES 256
7 EXTERNAL-CAVITY SURFACE-EMITTING DIODE LASERS 263 ARAM MOORADIAN,
ANDREI SHCHEGROV, ASHISH TANDON, AND GIDEON YOFFE 7.1 INTRODUCTION 263
7.2 DEVICE DESIGN AND PERFORMANCE 264 7.3 MODE CONTROL, CAVITY DESIGN,
AND THERMAL LENSING 270 7.4 HIGH-POWER ARRAYS AND MULTIELEMENT DEVICES
274 7.4.1 DESIGN OF THE CHIP 276
7.5 CARRIER DYNAMICS 286
7.5.1 MODE LOCKING 287 7.6 NONLINEAR OPTICAL CONVERSION WITH
SURFACE-EMITTING DIODE LASERS: DESIGN AND PERFORMANCE 287 7.6.1 VISIBLE
LASER SOURCES: APPLICATIONS AND REQUIREMENTS 287 7.6.2 CAVITY DESIGN
OPTIMIZATION AND TRADE-OFFS FOR SECOND HARMONIC
GENERATION WITH SURFACE-EMITTING DIODE LASERS 289 7.6.3 NONLINEAR
CRYSTALS USED IN INTRACAVITY FREQUENCY CONVERSION 291 7.6.4 LOW-NOISE,
HIGH MODE QUALITY, CONTINUOUS-WAVE VISIBLE
LASER SOURCES FOR INSTRUMENTATION APPLICATIONS 294 7.6.5 COMPACT VISIBLE
SOURCES SCALABLE TO ARRAY ARCHITECTURE 297 REFERENCES 302
INDEX 305 |
| any_adam_object | 1 |
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| dewey-full | 535.2 |
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| dewey-ones | 535 - Light and related radiation |
| dewey-raw | 535.2 |
| dewey-search | 535.2 |
| dewey-sort | 3535.2 |
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| discipline | Maschinenbau / Maschinenwesen Physik |
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| isbn | 9783527409334 |
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| spelling | Semiconductor disk lasers physics and technology ed. by Oleg G. Okhotnikov Weinheim WILEY-VCH 2010 XV, 314 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Scheibenlaser (DE-588)4697075-7 gnd rswk-swf Halbleiterlaser (DE-588)4139556-6 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Halbleiterlaser (DE-588)4139556-6 s Scheibenlaser (DE-588)4697075-7 s DE-604 Okhotnikov, Oleg G. (DE-588)141187476 edt text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3192026&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018988020&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Semiconductor disk lasers physics and technology Scheibenlaser (DE-588)4697075-7 gnd Halbleiterlaser (DE-588)4139556-6 gnd |
| subject_GND | (DE-588)4697075-7 (DE-588)4139556-6 (DE-588)4143413-4 |
| title | Semiconductor disk lasers physics and technology |
| title_auth | Semiconductor disk lasers physics and technology |
| title_exact_search | Semiconductor disk lasers physics and technology |
| title_full | Semiconductor disk lasers physics and technology ed. by Oleg G. Okhotnikov |
| title_fullStr | Semiconductor disk lasers physics and technology ed. by Oleg G. Okhotnikov |
| title_full_unstemmed | Semiconductor disk lasers physics and technology ed. by Oleg G. Okhotnikov |
| title_short | Semiconductor disk lasers |
| title_sort | semiconductor disk lasers physics and technology |
| title_sub | physics and technology |
| topic | Scheibenlaser (DE-588)4697075-7 gnd Halbleiterlaser (DE-588)4139556-6 gnd |
| topic_facet | Scheibenlaser Halbleiterlaser Aufsatzsammlung |
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