Optics, optoelectronics and photonics: engineering principles and applications
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York u.a.
Prentice Hall
1993
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| Schriftenreihe: | Prentice Hall international series in optoelectronics
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 404 S. graph. Darst. |
| ISBN: | 013709115X |
Internformat
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| 245 | 1 | 0 | |a Optics, optoelectronics and photonics |b engineering principles and applications |c Alan Billings |
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Datensatz im Suchindex
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| adam_text | OPTICS, OPTOELECTRONICS AND PHOTONICS ENGINEERING PRINCIPLES AND
APPLICATIONS ALAN BILLINGS EMERITUS PROFESSOR, UNIVERSITY OF WESTERN
AUSTRALIA NEW YORK LONDON TORONTO SYDNEY TOKYO SINGAPORE V CONTENTS
PREFACE XIII CHAPTER 1 BASIC OPTICAL PRINCIPLES 1 1.1 INTRODUCTION 2 1.2
GEOMETRIC OPTICS 2 1.1.2 SNELL S LAW AND REFRACTED RAYS 3 1.2.2 THE
MATRIX APPROACH TO TRANSLATION OF RAY IN MATERIAL OF CONSTANT REFRACTIVE
INDEX 5 1.2.3 THE MATRIX DESCRIPTION OF RAY REFRACTION AT A PLANE
INTERFACE 5 , 1.2.4 THE MATRIX DESCRIPTION OF A SIMPLE COMPOSITE OPTICAL
SYSTEM 7 1.2.5 THE MATRIX DESCRIPTION OF REFRACTION AT A SPHERICAL
SURFACE, WHEN THE PARAXIAL ASSUMPTION APPLIES 8 1.2.6 THE MATRIX
DESCRIPTION OF REFRACTION BY A LENS 10 1.2.7 THE MATRIX DESCRIPTION OF
SIMPLE OPTICAL SYSTEMS CONTAINING LENSES 11 1.2.8 THE IMAGING PROPERTIES
OF A THIN LENS 12 1.2.9 REAL AND VIRTUAL IMAGES 13 1.2.10 THE MATRIX
DESCRIPTION OF OTHER REFRACTING COMPONENTS 15 1.2.11 THE MATRIX
DESCRIPTION OF REFLECTING ELEMENTS 17 1.3 POLARIZATION 19 1.3.1 THE
NATURE OF UNGUIDED OPTICAL TRAVELING WAVES 19 1.3.2 THE JONES CALCULUS
21 1.3.3 THE BREWSTER EFFECT 28 1.4 COHERENCE AND INCOHERENCE 29 1.5
DIFFRACTION 30 1.6 ANISOTROPY AND NON-LINEARITY 32 V VI CONTENTS CHAPTER
2 FOURIER OPTICS 35 2.1 FOURIER INTEGRALS IN OPTICS 36 2.1.1
INTRODUCTION TO FOURIER INTEGRALS 36 2.1.2 THE FOURIER INTEGRAL IN ONE
AND TWO DIMENSIONS 36 2.1.3 THE REPRESENTATION OF A PROPAGATING WAVE AS
THE SUPERPOSITION OF UNIFORM PLANE WAVES 37 2.2 FRESNEL AND FRAUNHOFER
DIFFRACTION 40 2.2.1 EXAMPLES OF FRAUNHOFER DIFFRACTION PATTERNS 42 2.3
FOURIER TRANSFORMATIONS PERFORMED BY THIN LENSES 45 2.3.1 FOCAL PLANE
TRANSFORMATIONS FOR A THIN LENS 49 2.4 THE PROPAGATION OF GAUSSIAN BEAMS
51 2.5 THE IMPULSE RESPONSE OF OPTICAL COMPONENTS AND SYSTEMS, AND ) THE
USE OF THE OPTICAL PROPAGATOR FUNCTION 59 2.5.1 THE OPTICAL PROPAGATOR
FUNCTION *F 60 2.5.2 THE QUASI-FOURIER TRANSFORMING PROPERTIES OF A LENS
WHEN THE OBJECT IS NOT IN THE FRONT FOCAL PLANE 61 2.5.3 THE
INPUT-OUTPUT RELATIONSHIP FOR A SYSTEM USING A POINT SOURCE WITH A
TRANSPARENCY AND A LENS 63 2.5.4 THE QUASI-FOURIER TRANSFORM OF
TRANSPARENCY PLACED BETWEEN A LENS AND ITS OUTPUT FOCAL PLANE 64 CHAPTER
3 DIFFRACTION GRATINGS AND HOLOGRAPHY 69 3.1 INTRODUCTION TO HOLOGRAPHY
70 3.2 THE THIN HOLOGRAPHIC DIFFRACTION GRATING 70 3.3 THE GENERAL THIN
HOLOGRAM 72 3.4 THE THIN TRANSMISSION HOLOGRAM USING A UNIFORM PLANE
WAVE REFERENCE BEAM 73 3.5 HOLOGRAMS OF THREE-DIMENSIONAL OBJECTS 77 3.6
THE ANGULAR SPECTRUM OF HOLOGRAM OUTPUT 78 3.7 THICK HOLOGRAPHIC
AMPLITUDE MODULATED GRATINGS 83 3.8 READING THICK AMPLITUDE GRATINGS 84
3.9 THE BRAGG EFFECT 87 3.10 THICK PHASE MODULATED GRATINGS 89 3.11 THE
DIFFRACTION EFFICIENCY OF GRATINGS, AND THE COUPLED WAVE EQUATIONS 91
3.12 THICK HOLOGRAMS 94 3.13 THE HOLOGRAM OF A TWO-DIMENSIONAL OBJECT,
AND THE FOURIER HOLOGRAM 95 3.13.1 FOURIER HOLOGRAPHY 95 3.14
COMPUTER-GENERATED HOLOGRAMS 99 3.14.1 COMPUTER-GENERATED FOURIER
TRANSFORM HOLOGRAMS 100 CHAPTER 4 OPTICAL MATERIALS AND THEIR PROPERTIES
109 4.1 TENSOR PRELIMINARIES 110 4.1.1 INTRODUCTION 110 4.1.2 SUMMATION
NOTATION 110 4.1.3 TENSOR TRANSFORMATION RULES 110 CONTENTS VII 4.1.4
TENSOR DESCRIPTION OF OPTICAL AND ELECTRICAL PROPERTIES OF MATERIALS 111
4.1.5 THE INFLUENCE OF CRYSTAL SYMMETRY AND THERMODYNAMICS UPON TENSOR
COMPONENTS 112 4.2 NATURAL OPTICAL BIREFRINGENCE 113 4.2.1 FRESNEL S
EQUATIONS 113 4.2.2 UNIAXIAL MATERIALS 115 4.2.3 APPLICATIONS OF NATURAL
BIREFRINGENCE 119 4.3 CONTROLLED BIREFRINGENCE 123 4.3.1 THE SOURCE AND
NATURE OF CONTROLLED BIREFRINGENCE 123 4.3.2 THE ELECTRO-OPTIC OR
POCKELS EFFECT 124 4.3.3 THE TRANSVERSE SWITCHING MODULATOR 125 4.3.4
THE LONGITUDINAL SWITCHING MODULATOR 129 4.3.5 BULK PHASE AND AMPLITUDE
MODULATORS 130 4.3.6 TRANSIT TIME LIMITATIONS OF BULK MODULATORS 132 4.4
OPTICAL ACTIVITY 133 4.5 EIGENMODES AND EIGENVECTORS OF WAVES
PROPAGATING IN ANISOTROPIC MATERIALS 135 CHAPTER 5 GUIDED OPTICAL WAVES
141 5.1 INTRODUCTION TO WAVEGUIDING 142 5.1.1 SOLUTION TO MAXWELL S
EQUATIONS FOR ISOTROPIC PLANAR WAVEGUIDES 143 5.2 MODES IN SLAB
ISOTROPIC WAVEGUIDES 144 5.2.1 TRANSVERSE ELECTRIC MODES IN ISOTROPIC
SLAB WAVEGUIDES 144 5.2.2 ** MODES IN THE SYMMETRICAL ISOTROPIC SLAB
WAVEGUIDE 145 5.2.3 TM MODES IN THE SYMMETRICAL ISOTROPIC SLAB WAVEGUIDE
150 5.2.4 MODE CUT-OFF CONDITIONS FOR ISOTROPIC MULTIMODE SYMMETRICAL
GUIDES 153 5.2.5 ** MODES IN THE ASYMMETRIC ISOTROPIC SLAB WAVEGUIDE 154
5.2.6 TM MODES IN ASYMMETRIC ISOTROPIC SLAB WAVEGUIDES 155 5.2.7 GENERAL
CLASSIFICATION OF WAVEGUIDE MODES AND WAVEGUIDE FIELD DISTRIBUTIONS 156
5.2.8 NORMALIZED MODES AND ORTHOGONALITY 156 5.2.9 PROPAGATION IN
RECTANGULAR DIELECTRIC WAVEGUIDES 157 5.3 PROPAGATING MODES IN
ANISOTROPIC SLAB WAVEGUIDES 158 5.4 PROPAGATION IN OPTICAL FIBERS 161
5.4.1 THE MODAL APPROACH TO PROPAGATION IN AN ISOTROPIC STEP INDEX FIBER
162 5.4.2 MODES IN STEP INDEX FIBER WHEN THE WAVE IS WEAKLY CONFINED 167
5.4.3 MODAL DISPERSION IN WEAKLY GUIDING MULTIMODE FIBERS 168 5.4.4
DISPERSION IN SINGLE-MODE WEAKLY GUIDING FIBERS 169 5.4.5 THE SOLITON IN
NON-LINEAR FIBERS 169 5.5 BIREFRINGENT FIBERS AND
POLARIZATION-MAINTAINING FIBERS 171 CHAPTER 6 COHERENT OPTICAL SOURCES
175 6.1 INTRODUCTION TO LASERS 176 6.1.1 STIMULATED AND SPONTANEOUS
EMISSION 176 VIII CONTENTS 6.1.2 THE GAIN OF OPTICAL MEDIUM WITH
INVERTED POPULATION 178 6.1.3 METHODS OF PUMPING TO OBTAIN POPULATION
INVERSION 179 6.1.4 THE FABRY-PEROT CAVITY 179 6.1.5 THRESHOLD
POPULATION INVERSION FOR LASING 181 6.1.6 LASING FREQUENCIES 181 6.1.7
THE RATE EQUATIONS FOR THE FOUR-LEVEL LASER 181 6.1.8 HOMOGENEOUS AND
INHOMOGENEOUS LASERS 184 6.1.9 COMPARISON BETWEEN THREE-LEVEL AND
FOUR-LEVEL LASERS 186 6.2 EXAMPLES OF GAS LASERS 186 6.2.1 THE HENE
LASER 186 6.2.2 THE C0 2 LASER 188 6.2.3 THE ION LASER 190 6.3 MODES OF
LASER OPERATION 190 6.3.1 THE Q-SWITCHED LASER 190 6.3.2 THE MODE-LOCKED
LASER 191 6.3.3 THE SINGLE-MODE LASER 194 6.4 EXAMPLES OF SOLID STATE
LASERS 196 6.4.1 THE RUBY LASER 196 6.4.2 THE ND-YAG LASER AND THE
ND-GLASS LASER 197 6.4.3 THE COLOR CENTER LASER 198 6.5 SEMICONDUCTOR
DIODE LASERS 200 6.5.1 THE HETERO-JUNCTION LASER 201 6.5.2 THE EXTERNAL
CAVITY LASER 204 6.5.3 THE SURFACE-EMITTING DIODE LASER 205 6.6 FIBER
LASERS 207 6.6.1 THE SOLITON LASER 207 6.6.2 THE ERBIUM DOPED FIBER
AMPLIFIER (EDFA) 208 6.7 THE FREE ELECTRON LASER 208 CHAPTER 7 OPTICAL
DETECTION 213 7.1 METHODS OF OPTICAL DETECTION 214 7.1.1 DETECTORS THAT
OPERATE AS DIRECT ENERGY CONVERTERS 214 7.1.2 HYBRID DETECTORS THAT
OPERATE AS INDIRECT ENERGY CONVERTERS 214 7.1.3 DETECTORS THAT OPERATE
AS ENERGY CONTROLLERS RATHER THAN ENERGY CONVERTERS 215 7.2 CATHODE
EMISSION PHOTODETECTORS 216 7.2.1 SINGLE-STAGE CATHODE EMITTERS 216
7.2.2 THE PHOTOMULTIPLIER 218 7.3 THE SEMICONDUCTOR PHOTODIODE 218 7.3.1
THE PN JUNCTION PHOTODETECTOR 218 7.3.2 THE SCHOTTKY BARRIER PHOTODIODE
222 7.3.3 THE PIN PHOTODIODE 223 7.3.4 THE SEMICONDUCTOR AVALANCHE
DETECTOR 225 7.4 THE OPERATING WAVELENGTH AND TEMPORAL RESPONSE OF
PHOTODETECTORS 225 7.4.1 THE OPERATIONAL WAVELENGTHS OF PHOTODETECTORS
225 7.4.2 THE TEMPORAL RESPONSE OF PHOTODETECTORS 227 7.5 THE NOISE
PERFORMANCE OF PHOTODETECTORS 230 7.5.1 THERMAL NOISE 230 CONTENTS IX
7.5.2 SOURCES OF NOISE IN PHOTODETECTORS 231 7.5.3 THE NOISE PERFORMANCE
OF DIRECT PHOTODETECTORS 231 7.5.4 THE NOISE PERFORMANCE OF
PHOTODETECTORS IN INDIRECT DETECTION MODES 233 CHAPTER 8 NON-LINEAR
OPTICS 237 8.1 INTRODUCTION 238 8.2 MATERIAL NON-LINEARITY SECOND ORDER
IN THE OPTICAL ELECTRIC FIELD 238 8.3 SECOND HARMONIC POLARIZATION WAVES
PRODUCED BY OPTICAL WAVES PASSING THROUGH A NON-LINEAR OPTICAL MATERIAL
239 8.3.1 POLARIZATION WAVES FOR KDP AND ITS ISOMORPHS 241 8.4 LAUNCHING
SECOND HARMONIC ELECTROMAGNETIC WAVES 244 8.4.1 AN EXTRAORDINARY SECOND
HARMONIC WAVE LAUNCHED BY AN ORDINARY FUNDAMENTAL WAVE IN A KDP CRYSTAL
244 8.4.2 AN ORDINARY SECOND HARMONIC WAVE LAUNCHED BY A COMBINATION OF
AN ORDINARY FUNDAMENTAL WAVE AND AN EXTRAORDINARY FUNDAMENTAL WAVE IN A
KDP CRYSTAL 246 8.4.3 SECOND HARMONIC WAVES LAUNCHED IN MATERIALS FOR
WHICH X 323 IS NON-ZERO 247 8.5 PHASE-MATCHING THE SECOND HARMONIC
GENERATOR 247 8.5.1 TEMPERATURE-MATCHING 247 8.5.2 ANGLE-MATCHING 248
8.6 POLARIZATION WAVES FOR THE PARAMETRIC AMPLIFIER 250 8.7 LAUNCHING AN
ELECTROMAGNETIC WAVE AT * DUE TO INPUTS AT A I AND * 254 8.8
PHASE-MATCHING PARAMETRIC AMPLIFIERS 255 8.8.1 TEMPERATURE-MATCHING 255
8.8.2 ANGLE PHASE-MATCHING 255 8.9 DEGENERATE FOUR-WAVE MIXING, USING
THE KERR EFFECT 258 8.10 PHASE CONJUGATION PRODUCED BY THE
PHOTOREFRACTIVE EFFECT 260 8.11 TWO-WAVE MIXING USING PHOTOREFRACTIVE
MATERIALS 265 8.12 PHASE-CONJUGATE MIRRORS AND THEIR APPLICATIONS 266
8.12.1 THE OPTICAL PROPERTIES OF THE PHASE-CONJUGATE MIRROR 266 8.12.2
APPLICATIONS OF PHASE-CONJUGATE MIRRORS 267 CHAPTER 9 COUPLED WAVE AND
OTHER WAVEGUIDE DEVICES 273 9.1 INTRODUCTION TO WAVEGUIDE DEVICES 274
9.1.1 COUPLING BETWEEN MODES IN SLAB WAVEGUIDES 274 9.1.2 DEVICES BASED
ON COUPLING BETWEEN MODES IN A SINGLE SLAB GUIDE 274 9.1.3 DEVICES BASED
UPON COUPLING BETWEEN MODES IN MULTIPLE SLAB GUIDE STRUCTURES 275 9.2
COUPLED WAVE EQUATIONS FOR MULLIMODE SLAB WAVEGUIDE STRUCTURES 276 9.2.1
THE GENERAL FORM OF THE COUPLED WAVE EQUATIONS FOR CO-DIRECTIONAL AND
CONTRA-DIRECTIONAL COUPLING BETWEEN ** MODES 276 9.2.2 THE COUPLED WAVE
EQUATIONS FOR CO-DIRECTIONAL COUPLING IN A SYMMETRICAL ISOTROPIC
TWO-WAVEGUIDE STRUCTURE 277 X CONTENTS 9.2.3 COUPLING BETWEEN MODES IN A
SINGLE CORRUGATED ISOTROPIC SLAB WAVEGUIDE 283 9.2.4 SLAB WAVEGUIDE
DEVICES BASED ON INTERACTION BETWEEN ACOUSTIC AND OPTICAL WAVES 286
9.2.5 COUPLING BETWEEN MODES IN A SINGLE ANISOTROPIC SLAB WAVEGUIDE 288
9.3 COUPLING BETWEEN MODES IN CHANNEL GUIDES 290 9.4 SPECIFIC EXAMPLES
OF WAVEGUIDE DEVICES 290 9.4.1 COUPLED WAVE DIRECTIONAL COUPLERS 291
9.4.2 ELECTRO-OPTIC COUPLED WAVE MODULATORS 291 9.4.3 INTERFEROMETRIC
ELECTRO-OPTIC MODULATORS 297 9.4.4 TRAVELING WAVE MODULATORS 298 9.4.5
MODE CONVERSION AND CONTROL 301 9.4.6 CORRUGATED WAVEGUIDE DEVICES 305
9.4.7 ACOUSTO-OPTIC MODULATORS, DEFLECTORS AND SWITCHES 306 9.4.8
WAVEGUIDE AMPLIFIERS AND FREQUENCY CONVERTERS 308 9.4.9 MULTIPLE QUANTUM
WELL MATERIALS AND THEIR APPLICATION IN WAVEGUIDE DEVICES 308 9.5
INTEGRATED OPTICS 310 CHAPTER 10 OPTICAL SENSORS 313 10.1 INTRODUCTION
TO FIBER SENSORS 314 10.2 INTERFEROMETRY WITH AND WITHOUT THE USE OF
FIBERS 315 10.3 SOURCES OF PHYSICAL CHANGE TO THE TRANSMISSION
PROPERTIES OF INTRINSIC FIBER SENSORS 317 10.4 SOURCES OF PHYSICAL
CHANGE TO THE TRANSMISSION PROPERTIES OF SENSING ELEMENTS INCORPORATED
IN HYBRID FIBER SENSORS 319 10.5 OPTICAL GYROSCOPES 320 10.5.1 THE
SAGNAC EFFECT 320 10.5.2 NON-FIBER OPTICAL GYROSCOPES 323 10.5.3 THE
BIASING AND SENSITIVITY OF THE RING LASER GYROSCOPE 325 10.5.4 THE
MULTI-OSCILLATOR RING LASER GYROSCOPE 326 10.5.5 FIBER GYROSCOPES 329
10.5.6 THE PHASE-CONJUGATE FIBER GYROSCOPE 330 CHAPTER 11 OPTICAL
COMPUTING AND PROCESSING 333 11.1 OPTICAL COMPUTING AND OPTICS IN
COMPUTING 334 11.2 THE DISTINCTION BETWEEN DIGITAL AND NON-DIGITAL
COMPUTERS AND COMPUTING 334 11.3 ANALOG OPTICAL COMPUTING AND ANALOG
OPTICAL PROCESSORS 335 11.3.1 THE OPTICALLY ADDRESSED SPATIAL LIGHT
MODULATOR (SLM) 335 11.3.2 THE ELECTRICALLY ADDRESSED SPATIAL LIGHT
MODULATOR 337 11.3.3 MATRIX-VECTOR MULTIPLICATION, MATRIX-MATRIX
MULTIPLICATION, AND OTHER LINEAR ALGEBRAIC PROCESSES USING OPTICAL
SYSTOLIC ARRAYS 338 11.3.4 FOURIER TRANSFORM COMPUTATION 344 11.3.5
PATTERN RECOGNITION USING A MATCHED FILTER 345 11.3.6 READ-ONLY MEMORY
349 CONTENTS XI 11.3.7 PAGE-ORIENTED HOLOGRAPHIC MEMORY (POHM) 349
11.3.8 ADAPTABLE PHASE-CONJUGATE THREE-DIMENSIONAL MEMORY 351 11.3.9
OPTICAL NEURAL NETWORKS 351 11.4 DIGITAL COMPUTER ARCHITECTURES AND
THEIR RELEVANCE TO OPTICAL COMPUTING 358 11.4.1 SYSTOLIC ARRAY
PROCESSING 359 11.4.2 WAVEFRONT ARRAY PROCESSING 359 11.5 THE USE OF
OPTICS IN HYBRID DIGITAL COMPUTERS 360 11.5.1 THE INTRA-CHIP, INTER-CHIP
AND INTER-SUBSYSTEM COMMUNICATION PROBLEM 360 11.5.2 CLOCK DISTRIBUTION
361 11.5.3 DATA COMMUNICATION AT INTRA-CHIP, INTER-CHIP AND BOARD-TO-
BOARD LEVEL 361 11.5.4 ELECTRO-OPTIC AND OPTO-ELECTRIC TRANSDUCERS 364
11.5.5 OPTICALLY SAMPLED ANALOG-TO-DIGITAL CONVERSION 365 11.6 OPTICAL
DIGITAL COMPUTING 367 11.6.1 OPTICAL BISTABILITY 367 11.6.2 ULTRA-FAST
OPTICAL STORAGE AND OPTICAL LOGIC ELEMENTS 370 APPENDIX A FOURIER
TRANSFORMS 373 APPENDIX * THE OPTICAL PROPAGATOR OPERATOR *P 377
APPENDIXC TENSOR TRANSFORMATIONS 379 APPENDIX D TENSOR COMPONENTS AND
CRYSTAL CLASSES 385 APPENDIX E DIAGONALIZING SECOND ORDER TENSORS 391
INDEX 397
|
| any_adam_object | 1 |
| author | Billings, Alan R. |
| author_facet | Billings, Alan R. |
| author_role | aut |
| author_sort | Billings, Alan R. |
| author_variant | a r b ar arb |
| building | Verbundindex |
| bvnumber | BV009815576 |
| callnumber-first | T - Technology |
| callnumber-label | TA1520 |
| callnumber-raw | TA1520 |
| callnumber-search | TA1520 |
| callnumber-sort | TA 41520 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | ZN 5000 |
| classification_tum | ELT 330f PHY 350f |
| ctrlnum | (OCoLC)27433033 (DE-599)BVBBV009815576 |
| dewey-full | 621.36 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.36 |
| dewey-search | 621.36 |
| dewey-sort | 3621.36 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
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| id | DE-604.BV009815576 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T17:41:23Z |
| institution | BVB |
| isbn | 013709115X |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-006497400 |
| oclc_num | 27433033 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM DE-523 |
| owner_facet | DE-91 DE-BY-TUM DE-523 |
| physical | XV, 404 S. graph. Darst. |
| publishDate | 1993 |
| publishDateSearch | 1993 |
| publishDateSort | 1993 |
| publisher | Prentice Hall |
| record_format | marc |
| series2 | Prentice Hall international series in optoelectronics |
| spelling | Billings, Alan R. Verfasser aut Optics, optoelectronics and photonics engineering principles and applications Alan Billings New York u.a. Prentice Hall 1993 XV, 404 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Prentice Hall international series in optoelectronics Optica integrada larpcal Opto-elektronica gtt Optoeletronica integrada larpcal Optics Optoelectronics Photonics Optik (DE-588)4043650-0 gnd rswk-swf Optoelektronik (DE-588)4043687-1 gnd rswk-swf Optik (DE-588)4043650-0 s DE-604 Optoelektronik (DE-588)4043687-1 s GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006497400&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Billings, Alan R. Optics, optoelectronics and photonics engineering principles and applications Optica integrada larpcal Opto-elektronica gtt Optoeletronica integrada larpcal Optics Optoelectronics Photonics Optik (DE-588)4043650-0 gnd Optoelektronik (DE-588)4043687-1 gnd |
| subject_GND | (DE-588)4043650-0 (DE-588)4043687-1 |
| title | Optics, optoelectronics and photonics engineering principles and applications |
| title_auth | Optics, optoelectronics and photonics engineering principles and applications |
| title_exact_search | Optics, optoelectronics and photonics engineering principles and applications |
| title_full | Optics, optoelectronics and photonics engineering principles and applications Alan Billings |
| title_fullStr | Optics, optoelectronics and photonics engineering principles and applications Alan Billings |
| title_full_unstemmed | Optics, optoelectronics and photonics engineering principles and applications Alan Billings |
| title_short | Optics, optoelectronics and photonics |
| title_sort | optics optoelectronics and photonics engineering principles and applications |
| title_sub | engineering principles and applications |
| topic | Optica integrada larpcal Opto-elektronica gtt Optoeletronica integrada larpcal Optics Optoelectronics Photonics Optik (DE-588)4043650-0 gnd Optoelektronik (DE-588)4043687-1 gnd |
| topic_facet | Optica integrada Opto-elektronica Optoeletronica integrada Optics Optoelectronics Photonics Optik Optoelektronik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006497400&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT billingsalanr opticsoptoelectronicsandphotonicsengineeringprinciplesandapplications |