Fourier transform infrared: a constantly evolving technology
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York u.a.
Horwood
1991
|
| Ausgabe: | 1. publ. |
| Schriftenreihe: | Ellis Horwood series in analytical chemistry
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | 340 S. Ill., graph. Darst. |
| ISBN: | 0133274799 |
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Datensatz im Suchindex
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|---|---|
| adam_text | FOURIER TRANSFORM INFRARED A CONSTANTLY EVOLVING TECHNOLOGY SEAN
JOHNSTON M.SCB.SC. INSTRUMENT MANAGER LASER MONITORING SYSTEMS LTD,
HUMBERSIDE, UK ERRATA JOHNSTON: FOURIER TRANSFORM INFRARED 1. BACK
COVER, 2ND LINE FROM BOTTOM: CHARTERED PHARMACIST SHOULD READ CHARTERED
PHYSICIST 2. BACK COVER, 16TH LINE FROM BOTTOM: FLEGETT SHOULD READ
FELLGETT 3. P.340 (INDEX), SECOND-TO-LAST ENTRY: ZDP SHOULD READ ZPD
ELLIS HORWOOD NEW YORK LONDON TORONTO SYDNEY TOKYO SINGAPORE TABLE OF
CONTENTS PREFACE 17 1 INTRODUCTION 21 PARTI: CLASSICAL TIMES 2 ORIGINS
27 2.1 THE STATUS IN 1800 27 2.1.1 LIGHT WAVES VS. PARTICLES 28 2.2 THE
DISCOVERY OF INTERFERENCE 28 2.3 GROWTH OF THE UNDULATORY THEORY 29
2.3.1 THE INTERFERENCE OF LIGHT 29 2.3.2 POLARIZATION 30 2.3.3 RESEARCH
INTO INTERFERENCE PHENOMENA 31 2.4 HARMONIE ANALYSIS 31 2.5 THE
BEGINNINGS OF OPTICAL SPECTROSCOPY 32 2.5.1 INVENTION OF THE
SPECTROSCOPE 34 2.5.2 EMISSION SPECTRA 37 2.5.3 ABSORPTION SPECTRA 37
2.5.4 MOLECULAR SPECTRA 38 REFERENCES 38 3 THE BIRTH OF INTERFERENTIAL
SPECTROSCOPY 40 3.1 THE INTERFEROMETER 40 3.2 THE INTERFEROGRAM 43 3.3
THE FOURIER TRANSFORM 46 3.4 THE HARMONIC ANALYSER 46 3.5 EXPERIMENTAL
LIMITATIONS 49 3.6 INFRARED AND FAR INFRARED 51 6 TABLE OF CONTENTS 3.7
THE MEASUREMENT OF INFRARED RADIATION 51 3.8 INTERFERENTIAL SPECTROSCOPY
IN THE INFRARED 52 REFERENCES 55 PART II: DARKAGES 4 THE DECLINE OF
INTERFERENTIAL SPECTROSCOPY 59 4.1 SPREADING THE WORD 59 4.2 AMBIGUITIES
60 4.3 RESTRICTION TO EMISSION SPECTRA 60 4.4 THE MISSING LINK 61 4.5
FINAL DECLINE 63 REFERENCES 64 5 COMPETING TECHNOLOGIES 66 5.1 SPECTRAL
UNITS 66 5.2 SPECTRAL RAENGE 67 5.3 SPECTRAL RESOLUTION 67 5.4
MULTIPLE-BEAM SPECTROSCOPIC INSTRUMENTS 67 5.4.1 THE ECHELON
SPECTROSCOPE 67 5.4.2 THE FABRY-PEROT ETALON 69 5.4.3 THE LUMMER-GEHRCKE
PLATE 70 5.5 DISPERSIVE SPECTROSCOPIC INSTRUMENTS 72 5.5.1 PRISM
SPECTROMETERS 72 5.5.2 THE DIFFRACTION GRATING 73 5.6 A TYPICAL
SPECTROSCOPIC IMPLEMENTATION IN THE LATE 1920S . . . .74 REFERENCES 76 6
COMMERCIAL DISPERSIVE SPECTROMETERS 77 6.1 IMPROVEMENTS TO CLASSICAL
DETECTION METHODS 77 6.1.1 THE PFUND RESONANCE RADIOMETER 77 6.1.2 THE
FIRESTONE AMPLIFIER 77 6.1.3 ELECTRONIC AMPLIFIERS 78 6.2 RECORDING
SPECTROPHOTOMETERS 79 6.3 SERVOMECHANISMS 81 6.4 FOURIER TRANSFORMATION
BEFORE COMPUTERS 82 6.5 THE GROWTH OF COMMERCIAL SPECTROSCOPY 83 6.6
DOUBLE BEAM VS. SINGLE BEAM INSTRUMENTS 83 6.6.1 OPTICAL NULL
INSTRUMENTS 84 6.6.2 ENERGY CONTROL 85 6.6.3 ELECTRONIC NULL INSTRUMENTS
85 6.6.4 RECORDING SYSTEMS 86 TABLE OF CONTENTS 7 6.6.5 THE DISPERSIVE
INFRARED LABORATORY 86 REFERENCES 87 PART III: RENAISSANCE 7 POST-WAR
DEVELOPMENTS 91 7.1 COMPUTER DEVELOPMENT 91 7.1.1 OPTICAL PROCESSING 91
7.2 INFORMATION THEORY 92 7.3 INSTRUMENT SCIENCE 92 7.4 THE MULTIPLEX
ADVANTAGE 93 7.5 THE JACQUINOT ADVANTAGE 95 7.6 OTHER CONTRIBUTIONS 96
REFERENCES 97 8 EXPERIMENTAL INTERFEROMETRIC SPECTROSCOPY ... .98 8.1
FELLGETT S DEMONSTRATION 98 8.2 THE JOHNS HOPKINS GROUP 99 8.3 LAWRENCE
MERTZ AT BAIRD ASSOCIATES INE 101 8.4 THE ROAD TO TRANSFORMATION 101 8.5
JACQUINOT S GROUP 103 8.6 THE 1957 BELLEVUE CONFERENCE 103 8.7 CONNES
THESIS 104 8.8 WORK AT NPL 106 8.8.1 MICHELSON VS. LAMELLAR
INTERFEROMETERS 106 8.8.2 EARLY NPL INSTRUMENTS 107 8.8.3 A NEAR
INFRARED FTIR 107 8.8.4 THE COMPENSATOR PLATE 107 8.8.5 AN EVACUABLE
MICHELSON INTERFEROMETER 110 8.9 MOIRE POSITION MEASUREMENT 110 8.10
ADVANCES IN DETECTORS 112 8.10.1 THE GOLAY CELL 112 8.10.2 THE
PHOTOELECTRIC INFRARED DETECTORS 113 8.10.3 PHOTOMULTIPLIER TUBES 113
8.11 THE STATE-OF-THE-ART: THE CONNES PLANETARY SPECTRA 114 REFERENCES
115 9 WORKING OUT THE DETAILS 117 9.1 APODIZATION 118 9.2 DIGITAL
SAMPLING 120 9.3 SURFACE FLATNESS VS. WAVELENGTH 120 9.4 THE EFFECT OF
BEAM DIVERGENCE IN AN INTERFEROMETER 121 10 TABLE OF CONTENTS 13.5.2
LVDTS 204 13.5.3 FRINGE MONITORING 204 13.6 ASSOCIATED SPECTROMETER
OPTICS 208 13.6.1 JACQUINOT STOP 208 13.6.2 SOURCE AND SOURCE OPTICS 209
13.6.3 SAMPLE OPTICS 212 13.6.4 DETECTORS 213 13.6.5 DETECTOR OPTICS 214
REFERENCES 217 14 THE OPTIMIZATION OF FTIR 219 14.1 INTERFEROMETER
EFFICIENCY 219 14.2 DYNAMIC RAENGE 223 14.3 AMPLIFIER LINEARITY 224 14.4
FILTERING 225 14.5 BEAMSPLITTER DESIGN 226 14.5.1 WAVEFRONT DISTORTION
226 14.5.2 SPECTRAL BAND 227 14.5.3 POLARIZATION EFFECTS 228 REFERENCES
229 15 FTIR SINCE 1980 230 15.1 ANALECT 231 15.2 BECKMAN 232 15.3 BLOCK
ENGINEERING 232 15.4 BOMEM 232 15.5 BRAN+LUEBBE 234 15.6 BRUKER 234 15.7
CHELSEA INSTRUMENTS 235 15.8 DIGILAB 235 15.9 HEWLETT-PACKARD 235 15.10
HITACHI 236 15.11 IBM INSTRUMENTS 236 15.12 IDEALAB 236 15.13 JANOS 236
15.14 JASCO 236 15.15 JEOL 236 15.16 KAYSER-THREDE 237 15.17 LLOYD
INSTRUMENTS 237 15.18 MATTSON 238 TABLE OF CONTENTS 11 15.19 MIDAC 239
15.20 NICOLET 239 15.21 PERKIN-ELMER 242 15.22 PHILIPS ANALYTICAL 244
15.23 SPECAC 245 15.24 SOVIET INSTRUMENTS 246 15.25 EPILOGUE: COMPANIES
NO LONGER MANUFACTURING FTIRS . . . .246 REFERENCES 246 16 FTIR IN SPACE
248 16.1 GROUND-BASED ASTRONOMY 248 16.2 AIRBORNE FOURIER SPECTROMETERS
249 16.2.1 JPL 249 16.2.2 UNIVERSITY OF ARIZONA 250 16.2.3 OTHER
AIRBORNE INSTRUMENTS 252 16.3 SPACE-BORNE INTERFEROMETERS 252 16.3.1
BLOCK ENGINEERING 252 16.3.2 NIMBUS SATELLITES 252 16.3.3 EXCEDE
EXPERIMENT 255 16.3.4 MARINER MARS PROBE 255 16.3.5 VOYAGER SPACE PROBE
256 16.3.6 COSMIC BACKGROUND EXPLORER 257 16.3.7 TROPOSPHERIC EMISSION
SPECTROMETER (TES) 257 16.3.8 SOVIET SPACE-BORNE INTERFEROMETERS 258
16.3.9 MANNED SPACE FLIGHT 258 REFERENCES 258 17 BEYOND FTIR 260 17.1
DOUBLE-BEAM FTIR 260 17.1.1 DOUBLE-BEAM CONFIGURATIONS AND APPLICATIONS
. . . .261 17.1.2 TECHNICAL ADVANTAGES OF DOUBLE-BEAM CONFIGURATIONS 268
17.1.3 COMPARISON WITH DISPERSIVE DOUBLE-BEAM INSTRUMENTS 270 17.1.4
FACTORS AFFECTING PERFORMANCE 271 17.1.5 SUMMARY 274 17.2 ASYMMETRIE
FTIR 275 17.3 FIELD-WIDENED INTERFEROMETERS 278 17.3.1 PRINCIPLE OF
FIELD-WIDENING 278 17.3.2 PRACTICAL INSTRUMENTS 280 17.3.3 IMAGING
INTERFEROMETERS 283 17.4 POLARIZING INTERFEROMETERS 284 12 TABLE OF
CONTENTS 17.4.1 WIRE-GRID POLARIZERS 284 17.4.2 MERTZ S POLARIZING
INTERFEROMETER 285 17.4.3 MARTIN AND PUPLETT DESIGN 286 17.4.4
POLARIZING INTERFEROMETER FOR DICHROISM MEASUREMENTS 288 17.5 FT
SPECTROMETRY IN THE ULTRAVIOLET 289 17.5.1 OPTICAL QUALITY 289 17.5.2
SCANNING ACCURACY 289 17.5.3 ALIGNMENT 289 17.5.4 PRACTICAL INSTRUMENTS
290 17.5.5 TYPES OF NOISE AND THEIR EFFECT ON THE MULTIPLEX ADVANTAGE
291 17.5.6 THE JACQUINOT ADVANTAGE IN FT-UV 293 17.6 GAS CHROMATOGRAPHY
AND IR 294 17.7 THERMOGRAVIMETRIC ANALYSIS AND IR 299 17.8 RAMAN
SPECTROSCOPY 299 17.9 SAMPLING TECHNIQUES 301 17.9.1 INFRARED
MICROSAMPLING 301 17.9.2 DIFFUSE REFLECTANCE 302 17.9.3 ATTENUATED TOTAL
REFLECTANCE 303 17.9.4 PHOTO-ACOUSTIC SPECTROSCOPY 304 17.9.5 LONG-PATH
GAS CELLS 306 17.9.6 FIBRE OPTICS INTERFACES 308 REFERENCES 310 18 THE
SHAPE OF THINGS TO COME 312 18.1 CHANGING MARKETS 312 18.2 ADVANCES IN
TECHNOLOGY 313 18.3 DATA ANALYSIS 313 18.3.1 NEURAL NETS 313 18.3.2
EXPERT SYSTEMS 314 18.3.3 COMMUNICATION 314 18.4 INTERFEROMETER DESIGN
315 18.4.1 FTIR WITH NO MOVING PARTS 315 18.4.2 FTIR WITHIN AN OPTICAL
FIBRE 317 18.5 ADVANCES IN SAMPLING TECHNIQUES 317 18.6 THE EVENTUAL
DEMISE OF FTIR 318 18.6.1 SCANNING LASER SPECTROSCOPY 318 18.6.2
INFRARED DIODE-ARRAY SPECTROMETERS 320 18.7 THE WEAKNESSES OF FTIR 320
18.8 THE STRENGTHS OF FTIR 321 TABLE OF CONTENTS 13 18.9 FTS OR FTIR?
321 18.10 IN THE CRYSTAL BALL 322 REFERENCES 324 APPENDIX PRACTICAL
EVALUATION OF AN FTIR SPECTROMETER 325 ALI THE SINGLE-BEAM SPECTRUM:
ALIGNMENT AND PURGING 325 AI.2 THE 100% LINE: ALIGNMENT, STABILITY,
SPEED VARIATION, AND NOISE 325 AI .3 THE POLYSTYRENE TEST: AMPLIFIER
LINEARITY AND FREQUENCY SCALE 328 AI.4 ABSORBANCE RAENGE AND LINEARITY
329 AI .5 SUBSTITUTION OF A FREQUENCY GENERATOR FOR DETECTOR AND
PREAMPLIFIER 330 AI.6 INTERFEROGRAM EXAMINATION: MODULATION EFFICIENCY
AND LONG-TERM STABILITY 332 REFERENCE 333 INDEX 334
|
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| illustrated | Illustrated |
| indexdate | 2024-07-09T16:32:03Z |
| institution | BVB |
| isbn | 0133274799 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-003503810 |
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| owner_facet | DE-12 DE-355 DE-BY-UBR DE-706 DE-188 |
| physical | 340 S. Ill., graph. Darst. |
| publishDate | 1991 |
| publishDateSearch | 1991 |
| publishDateSort | 1991 |
| publisher | Horwood |
| record_format | marc |
| series2 | Ellis Horwood series in analytical chemistry |
| spelling | Johnston, Sean Verfasser aut Fourier transform infrared a constantly evolving technology Sean Johnston 1. publ. New York u.a. Horwood 1991 340 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Ellis Horwood series in analytical chemistry Fourier, Spectroscopie par transformée de ram Spectométrie infrarouge ram Fourier transform infrared spectroscopy Fourier-Transformation (DE-588)4018014-1 gnd rswk-swf Infrarotspektroskopie (DE-588)4135411-4 gnd rswk-swf Fourier-Transformation (DE-588)4018014-1 s Infrarotspektroskopie (DE-588)4135411-4 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003503810&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Johnston, Sean Fourier transform infrared a constantly evolving technology Fourier, Spectroscopie par transformée de ram Spectométrie infrarouge ram Fourier transform infrared spectroscopy Fourier-Transformation (DE-588)4018014-1 gnd Infrarotspektroskopie (DE-588)4135411-4 gnd |
| subject_GND | (DE-588)4018014-1 (DE-588)4135411-4 |
| title | Fourier transform infrared a constantly evolving technology |
| title_auth | Fourier transform infrared a constantly evolving technology |
| title_exact_search | Fourier transform infrared a constantly evolving technology |
| title_full | Fourier transform infrared a constantly evolving technology Sean Johnston |
| title_fullStr | Fourier transform infrared a constantly evolving technology Sean Johnston |
| title_full_unstemmed | Fourier transform infrared a constantly evolving technology Sean Johnston |
| title_short | Fourier transform infrared |
| title_sort | fourier transform infrared a constantly evolving technology |
| title_sub | a constantly evolving technology |
| topic | Fourier, Spectroscopie par transformée de ram Spectométrie infrarouge ram Fourier transform infrared spectroscopy Fourier-Transformation (DE-588)4018014-1 gnd Infrarotspektroskopie (DE-588)4135411-4 gnd |
| topic_facet | Fourier, Spectroscopie par transformée de Spectométrie infrarouge Fourier transform infrared spectroscopy Fourier-Transformation Infrarotspektroskopie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003503810&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT johnstonsean fouriertransforminfraredaconstantlyevolvingtechnology |