Verfügbarkeit: Photothermal spectroscopy methods for chemical analysis

Photothermal spectroscopy methods for chemical analysis:

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Bibliographische Detailangaben
1. Verfasser:	Bialkowski, Stephen E. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Wiley 1996
Schriftenreihe:	Chemical analysis 134
Schlagworte:	Photothermische Methode Optothermische Spektroskopie Spektroskopie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXIX, 584 S. Ill., graph. Darst.
ISBN:	0471574678

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Datensatz im Suchindex

_version_	1820776777842163712
adam_text	PHOTOTHERMAL SPECTROSCOPY METHODS FOR CHEMICAL ANALYSIS STEPHEN E. BIALKOWSKI UTAH STATE UNIVERSITY DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY LOGAN, UTAH A WILEY-INTERSCIENCE PUBLICATION JOHN WILEY & SONS, INC. NEW YORK / CHICHESTER / BRISBANE / TORONTO / SINGAPORE CONTENTS PREFACE XVII ACKNOWLEDGMENTS XXIII CUMULATIVE LISTING OF VOLUMES IN SERIES XXV CHAPTER 1 INTRODUCTION 1 1.1. PHOTOTHERMAL SPECTROSCOPY 1 1.2. BASIC PROCESSES IN PHOTOTHERMAL SPECTROSCOPY 3 1.3. PHOTOTHERMAL SPECTROSCOPY METHODS 7 1.4. APPLICATION OF PHOTOTHERMAL SPECTROSCOPY 13 1.5. ILLUSTRATIVE HISTORY OF PHOTOTHERMAL SPECTROSCOPY 14 1.5.1. NATURE OF THE PHOTOTHERMAL EFFECT 14 1.5.2. PHOTOACOUSTIC SPECTROSCOPY 16 1.5.3. PHOTOTHERMAL LENS SPECTROSCOPY 19 1.5.4. PHOTOTHERMAL INTERFEROMETRY 25 1.5.5. TWO-LASER PHOTOTHERMAL LENS SPECTROSCOPY 29 1.5.6. PHOTOTHERMAL DEFIECTION, REFRACTION, AND DIFFRACTION 32 1.5.7. PHOTOTHERMAL RADIOMETRY 39 1.5.8. HISTORIE SUMMARY 41 1.6. SOME IMPORTANT FEATURES OF PHOTOTHERMAL SPECTROSCOPY 42 REFERENCES 45 CHAPTER 2 ABSORPTION, ENERGY TRANSFER, AND EXCITED-STATE RELAXATION 49 2.1. FACTORS AFFECTING OPTICAL ADSORPTION 49 2.2. OPTICAL EXCITATION 57 VN VLLL CONTENTS 2.2.1. KINETIC TREATMENT OF OPTICAL TRANSITIONS 58 2.2.2. NONRADIATIVE TRANSITIONS 66 2.3. EXCITED-STATE RELAXATION 70 2.3.1. ROTATIONAL AND VIBRATIONAL RELAXATION 72 2.3.2. ELECTRONIC STATES AND TRANSITIONS 79 2.3.3. ELECTRONIC-STATE RELAXATION 82 2.4. RELAXATION KINETICS 89 2.5. NONLINEAR ABSORPTION 93 2.5.1. MULTIPHOTON ABSORPTION 95 2.5.2. OPTICAL SATURATION OF TWO-LEVEL TRANSITIONS 97 2.5.3. OPTICAL BLEACHING 100 2.5.4. RESPONSE TIMES DURING OPTICAL BLEACHING 103 2.5.5. OPTICAL BLEACHING OF ORGANIC DYES 105 2.5.6. RELAXATION FOR IMPULSE EXCITATION 108 2.5.7. MULTIPLE-PHOTON ABSORPTION 109 2.6. ABSORBED ENERGY 112 REFERENCES 117 CHAPTER 3 HYDRODYNAMIC RELAXATION: HE AT TRANSFER AND ACOUSTICS 119 3.1. LOCAL EQUILIBRIUM 119 3.2. THERMODYNAMIC AND OPTICAL PARAMETERS IN PHOTOTHERMAL SPECTROSCOPY 121 3.2.1. ENTHALPY AND TEMPERATURE 121 3.2.2. ENERGY AND DYNAMIC CHANGE 124 3.3. CONSERVATION EQUATIONS 125 3.4. HYDRODYNAMIC EQUATIONS 132 3.5. HYDRODYNAMIC RESPONSE TO PHOTOTHERMAL EXCITATION 136 3.5.1. SOLVING THE HYDRODYNAMIC EQUATIONS 136 3.5.2. THERMAL DIFFUSION MODE 139 3.5.3. FOURIER-LAPLACE SOLUTIONS FOR THE THERMAL DIFFUSION EQUATION 141 3.5.4. PROPAGATING MODE 144 CONTENTS IX 3.5.5. SUMMARY OF HYDRODYNAMIC MODE SOLUTIONS 146 3.6. DENSITY RESPONSE TO IMPULSE EXCITATION 147 3.6.1. ONE-DIMENSIONAL CASE 148 3.6.2. TWO-DIMENSIONAL CYLINDRICALLY SYMMETRIE EXAMPLE 152 3.6.3. COUPLED SOLUTIONS 161 3.7. SOLUTIONS INCLUDING MASS DIFFUSION 162 3.8. EFFECT OF HYDRODYNAMIC RELAXATION ON TEMPERATURE 169 3.9. THERMODYNAMIC FLUCTUATION 170 3.10. NOISE-EQUIVALENT DENSITY FLUCTUATION 173 3.11. SUMMARY 178 APPENDIX 3A: THERMODYNAMIC PARAMETER CALCULATION 179 APPENDIX 3B: PROPAGATING MODE IMPULSE RESPONSE FOR POLAR COORDINATES IN INFINITE MEDIA 180 REFERENCES 183 OPTICAL PRINCIPLES FOR PHOTOTHERMAL SPECTROSCOPY 185 4.1. LIGHT PROPAGATION 186 4.1.1. MAXWELL'S EQUATIONS 186 4.1.2. PLANE WAVES IN VACUUM 187 4.1.3. POLARIZATION 189 4.1.4. PLANE WAVE PROPAGATION IN DIELECTRIC MEDIA 190 4.1.5. REFRACTIVE INDEX 191 4.1.6. RELATING MACROSCOPIC DIELECTRIC CONSTANT TO MOLECULAR PARAMETERS 192 4.1.7. REFRACTIVE INDEX AT OPTICAL FREQUENCIES 194 4.1.8. POLARIZABILITY 196 4.1.9. QUANTUM MECHANICAL POLARIZABILITY 199 4.2. FUNDAMENTAL MODES IN HOMOGENEOUS MEDIA 201 4.2.1. TEM 00 MODE 202 CONTENTS 4.2.2. IRRADIANCE OF GAUSSIAN BEAMS 205 4.2.3. HIGHER-ORDER GAUSSIAN MODES 205 4.3. SPATIAL TRANSFORMATION OF RAYS BY OPTICAL ELEMENTS 209 4.3.1. PARAXIAL RAY TRACING 209 4.3.2. RAY PROPAGATION IN ISOTROPIE MEDIA 211 4.3.3. RAY PROPAGATION THROUGH A LENS AND LENSLIKE MEDIA 212 4.4. TRANSFORMATION OF GAUSSIAN MODES 216 4.4.1. GAUSSIAN MODE PROPAGATION IN ISOTROPIE MEDIA 218 4.4.2. FOCUSING GAUSSIAN BEAMS 220 4.5. PARAXIAL DIFFRACTION THEORY 223 4.5.1. FRESNEL DIFFRACTION 223 4.5.2. FRAUNHOFER DIFFRACTION 227 4.5.3. DIFFRACTION ELEMENTS 227 4.5.4. FOURIER TRANSFORM PROPERTIES OF APERTURES 228 4.5.5. ONE- AND TWO-DIMENSIONAL FOURIER TRANSFORMS 230 4.5.6. DIFFRACTION PROPERTIES OF THE IDEAL THIN LENS 232 4.5.7. FOURIER TRANSFORM PROPERTIES OF THE LENS 234 4.5.8. IMAGING WITH LENSES 235 4.5.9. DIFFRACTION TRANSFORMS WITH COHERENT AND INCOHERENT LIGHT 238 4.5.10. FINITE-DIAMETER LENS APERTURE EFFECTS 240 4.5.11. LENS PUPIL AND OPTICAL TRANSFER FUNCTIONS 243 4.6. DIFFRACTION OF GAUSSIAN BEAMS 246 4.6.1. FREE-SPACE PROPAGATION OF GAUSSIAN BEAMS 246 4.6.2. FOCUSING GAUSSIAN BEAMS 248 4.6.3. LENS TRANSFORM PROPERTIES WITH GAUSSIAN BEAMS 250 4.6.4. GAUSSIAN BEAM ATTENUATION 250 CONTENTS XI 4.6.5. EFFECTS OF SPATIAL NOISE 252 4.7. DIFFRACTION GRAETINGS 255 4.7.1. THIN-AMPLITUDE-TRANSMISSION GRAETINGS 257 4.7.2. THIN-PHASE-TRANSMISSION GRAETINGS 260 4.7.3. THICK GRAETINGS 261 REFERENCES 265 TEMPERATURE CHANGE AND OPTICAL ELEMENTS IN HOMOGENEOUS SAMPLES 267 5.1. TEMPERATURE CHANGE FROM GAUSSIAN EXCITATION SOURCES 268 5.1.1. THERMAL DIFFUSION APPROXIMATION 268 5.1.2. GAUSSIAN LASER EXCITATION OF OPTICALLY THIN SAMPLES 270 5.1.3. SHORT-PULSE LASER EXCITATION 272 5.1.4. CONTINUOUS LASER EXCITATION 274 5.1.4.1. LASER HEATING 274 5.1.4.2. ON-AXIS TEMPERATURE CHANGE 275 5.1.4.3. POSTEXCITATION COOLING 276 5.1.5. CHOPPED LASER EXCITATION 280 5.1.6. ON-AXIS TEMPERATURE CHANGE FOR PERIODIC EXCITATION 283 5.1.7. THERMAL GRAETINGS 285 5.2. THERMODYNAMIC PARAMETERS 289 5.2.1. THERMODYNAMIC PARAMETERS AFFECTING TEMPERATURE 289 5.2.2. CONVECTION HEAT TRANSFER 295 5.3. OPTICAL ELEMENTS 296 5.3.1. PHASE SHIFT AND OPTICAL PATHLENGTH DIFFERENCE 297 5.3.2. DEFLECTION ANGLE * 299 5.3.3. THERMAL LENS FOCAL LENGTH 300 5.3.4. GRAETING STRENGTH 303 5.4. TEMPERATURE-DEPENDENT REFRACTIVE INDEX CHANGE 305 5.4.1. DENSITY AND TEMPERATURE DEPENDENCE OF REFRACTIVE INDEX 306 XLL CONTENTS 5.4.2. POPULATION DEPENDENCE ON REFRACTIVE INDEX 312 5.4.3. SORET EFFECT 314 5.4.4. OTHER FACTORS AFFECTING REFRACTIVE INDEX 316 5.5. LIMITATIONS 317 5.5.1. EXCITATION BEAM WAIST RADIUS CHANGES 317 5.5.2. EFFECTS OF SCATTERING AND OPTICALLY THICK SAMPLES 318 5.5.3. FINITE-EXTENT SAMPLE EFFECTS 321 5.5.4. ACCOUNTING FOR FINITE CELL RADIUS 323 REFERENCES 328 CHAPTER 6 PHOTOTHERMAL SPECTROSCOPY IN HOMOGENEOUS SAMPLES 331 6.1. PHOTOTHERMAL INTERFEROMETRY 331 6.2. PHOTOTHERMAL DEFLECTION 338 6.2.1. DEFLECTION ANGLE FOR PULSED LASER EXCITATION 338 6.2.1.1. COLLINEAR PROBE GEOMETRY 338 6.2.1.2. CROSSED-BEAM PROBE GEOMETRY 341 6.2.2. DEFLECTION ANGLE FOR CONTINUOUS AND CHOPPED LASER EXCITATION 342 6.2.2.1. CONTINUOUS EXCITATION WITH PARALLEL-PROBE GEOMETRY 342 6.2.2.2. CONTINUOUS EXCITATION WITH CROSSED-PROBE GEOMETRY 344 6.2.2.3. CHOPPED EXCITATION WITH PARALLEL PROBE 346 6.2.3. DEFLECTION ANGLE DETECTION 349 6.2.3.1. PROBE LASER BEAM WAIST EFFECT 350 6.2.3.2. STRAIGHTEDGE APPARATUS 351 6.2.3.3. POSITION-SENSING DETECTORS 352 6.2.3.4. OTHER METHODS TO DETECT DEFLECTION ANGLE 354 6.2.3.5. DIFFERENTIAL DEFLECTION ANGLE 357 6.3. THERMAL LENS FOCAL LENGTH 359 6.3.1. PULSED EXCITATION THERMAL LENS FOCAL LENGTH 359 CONTENTS XLLL 6.3.1.1. TIME-DEPENDENT FOCAL LENGTH 359 6.3.1.2. SAMPLE PATHLENGTH LIMITATIONS 360 6.3.1.3. CROSSED-BEAM ARRANGEMENT 363 6.3.2. CONTINUOUS AND CHOPPED EXCITATION THERMAL LENS FOCAL LENGTH 364 6.3.2.1. CONTINUOUS EXCITATION 364 6.3.2.2. SAMPLE PATHLENGTH LIMITATIONS 365 6.3.2.3. CROSSED-BEAM GEOMETRY 365 6.3.2.4. CHOPPED EXCITATION 367 6.3.3. FOCAL LENGTH FOR PERIODIC EXCITATION 368 6.4. DETECTING THE THERMAL LENS 371 6.4.1. SIGNAL FOR SYMMETRIE LENS 371 6.4.2. SIGNAL FOR DIFFERENT X AND V FOCAL LENGTHS 374 6.4.3. LOCK-IN AMPLIFIER OR PULSE-HEIGHT-DETECTED SIGNAL 376 6.4.4. SIGNAL DEVELOPMENT WITH LARGE APERTURES 379 6.4.5. SIGNAL DEVELOPMENT BASED ON IMAGE ANALYSIS AND OTHER OPTICAL FILTERS 381 6.5. TYPES FO PHOTOTHERMAL LENS APPARATUS 384 6.5.1. SINGLE-LASER APPARATUS 385 6.5.2. DIFFERENTIAL SINGLE-LASER APPARATUS 387 6.5.3. TWO-LASER APPARATUS 388 6.6. TWO-LASER PHOTOTHERMAL LENS SPECTROSCOPY 397 6.6.1. EXCITATION WAVELENGTH DEPENDENCE IN TWO-LASER PHOTOTHERMAL SPECTROSCOPY 398 6.7. DIFFERENTIAL TWO-LASER APPARATUSES 399 6.8. DIFFRACTIAL EFFECTS 402 6.8.1. PROBE LASER DIFFRACTION EFFECTS FOR PULSED EXCITATION 403 6.8.2. PROBE LASER DIFFRACTION EFFECTS FOR CONTINUOUS EXCITATION 412 6.8.3. DIFFRACTION EFFECTS FOR SINGLE-LASER PHOTOTHERMAL LENS 415 6.8.4. EFFECT OF DIFFRACTION ON THE THERMAL LENS ENHANCEMENT FACTOR 416 REFERENCES 418 XIV CONTENTS CHAPTER 7 ANALYTICAL MEASUREMENT AND DATA PROCESSING CONSIDERATIONS 421 7.1. SENSITIVITY OF PHOTOTHERMAL SPECTROSCOPY 422 7.1.1. THERMAL LENS-ENHANCEMENT FACTORS 422 7.1.2. RELATIVE SENSITIVITY OF THE PHOTOTHERMAL LENS AND DEFLECTION SPECTROSCOPIES 430 7.1.3. RELATING PHOTOTHERMAL SIGNALS TO ABSORBANCE AND ENHANCEMENT 431 7.1.4. INTRINSIC ENHANCEMENT OF TWO-LASER METHODS 432 7.1.5. ENHANCEMENT LIMITATIONS 435 7.2. CONSIDERATIONS FOR TRACE ANALYSIS 437 7.3. OPTICAL INSTRUMENTATION FOR ANALYSIS 439 7.3.1. DIFFERENTIAL MEASUREMENT 439 7.3.2. SPECTROSCOPIC MEASUREMENT 441 7.3.3. FIBER OPTICS 442 7.4. PROCESSING PHOTOTHERMAL SIGNALS 447 7.4.1. ANALOG SIGNAL PROCESSING 452 7.4.2. DIGITAL SIGNAL PROCESSING 454 7.5. PHOTOTHERMAL DATA PROCESSING 460 7.5.1. CALIBRATION 460 7.5.2. EXCITATION IRRADIANCE CURVES 463 7.5.3. LIMITS OF DETECTION AND QUANTITATION 464 7.6. TRACKING DOWN AND REDUCING NOISE 465 REFERENCES 467 CHAPTER 8 ANALYTICAL APPLICATIONS 471 8.1. AREAS OF ANALYTICAL APPLICATION 471 8.2. PHOTOTHERMAL SPECTROSCOPY ANALYSIS OF STATIONARY HOMOGENEOUS SAMPLES 473 8.2.1. MEASUREMENT TECHNIQUES 473 8.2.2. APPLICATIONS 476 8.2.2.1. GAS PHASE 476 8.2.2.2. LIQUID PHASE 486 8.2.3. NOVEL CROSS-BEAM APPARATUS FOR PHOTOTHERMAL LENS SPECTROSCOPY 488 CONTENTS XV 8.3. PHOTOTHERMAL SPECTROSCOPY DETECTION IN CHROMATOGRAPHY 488 8.3.1. TEMPERATURE CHANGE IN FLOWING SAMPLES 489 8.3.2. DEFLECTION ANGLES AND INVERSE FOCAL LENGTHS IN FLOWING SAMPLES 492 8.3.2.1. ISOTROPIE AND TURBULENT FLOW 492 8.3.2.2. LAMINAR FLOW 494 8.3.3. APPLICATIONS 499 8.3.3.1. GAS CHROMATOGRAPHY AND FLOWING GAS ANALYSIS 499 8.3.3.2. LIQUID PHASE 506 8.4. EXCITATION AND RELAXATION KINETICS 508 8.4.1. RELAXATION KINETICS AND QUANTUM YIELD STUDIES 509 8.4.2. PHOTODYNAMIC IRRADIANCE-DEPENDENT SIGNAL STUDIES 521 8.4.3. OPTICAL BLEACHING IN ORGANIC DYE MOLECULES 522 8.4.4. OPTICAL BLEACHING EFFECTS IN PULSED LASER PHOTOTHERMAL SPECTROSCOPY 529 REFERENCES 531 PHOTOTHERMAL SPECTROSCOPY OF HETEROGENEOUS SAMPLES 535 9.1. TYPES OF HETEROGENEITY 536 9.2. APPARATUS FOR PHOTOTHERMAL DEFLECTION 537 9.3. SURFACE ABSORPTION 538 9.3.1. THERMAL DIFFUSION AT SURFACES 538 9.3.2. TEMPERATURE CHANGE FROM PULSED EXCITATION 539 9.3.3. TEMPERATURE CHANGE FROM CONTINUOUS EXCITATION 541 9.3.4. TEMPERATURE CHANGE FROM PERIODIC EXCITATION 542 9.4. THERMAL DIFFUSION IN VOLUME-ABSORBING SAMPLES 544 9.4.1. VOLUME TEMPERATURE CHANGE FOR PULSED EXCITATION 544 XVI CONTENTS 9.4.2. PERIODIC EXCITATION OF VOLUME ABSORBERS 545 9.5. TEMPERATURE CHANGE IN LAYERED SAMPLES 546 9.5.1. PERIODIC EXCITATION OF LAYERED SAMPLES 549 9.5.2. PULSED EXCITATION OF THICK-LAYERED SAMPLES 552 9.6. SURFACE POINT SOURCE 554 9.7. GAUSSIAN BEAM EXCITATION OF SURFACES 559 9.8. EXCITATION OF LAYERED SAMPLES WITH GAUSSIAN BEAMS 561 9.9. DEFLECTION ANGLES WITH OSCILLATING GAUSSIAN EXCITATION 565 9.10. PHOTOTHERMAL REFLECTION 568 9.11. EXPERIMENT DESIGN FOR PHOTOTHERMAL DEFLECTION 568 9.12. APPLICATIONS TO CHEMICAL ANALYSIS 572 9.12.1. BULK PROPERTIES 572 9.12.2. APPLICATIONS TO GEL AND THIN-LAYER CHROMATOGRAPHY 573 9.12.3. OTHER APPLICATIONS TO CHEMICAL AND BIOLOGICAL SAMPLE ANALYSIS 575 REFERENCES 577 INDEX 581
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isbn	0471574678
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-007179914
oclc_num	246315397
open_access_boolean
owner	DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-83
owner_facet	DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-83
physical	XXIX, 584 S. Ill., graph. Darst.
publishDate	1996
publishDateSearch	1996
publishDateSort	1996
publisher	Wiley
record_format	marc
series	Chemical analysis
series2	Chemical analysis A Wiley-interscience publication
spelling	Bialkowski, Stephen E. Verfasser aut Photothermal spectroscopy methods for chemical analysis Stephen E. Bialkowski New York [u.a.] Wiley 1996 XXIX, 584 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Chemical analysis 134 A Wiley-interscience publication Photothermische Methode (DE-588)4352084-4 gnd rswk-swf Optothermische Spektroskopie (DE-588)4196891-8 gnd rswk-swf Spektroskopie (DE-588)4056138-0 gnd rswk-swf Photothermische Methode (DE-588)4352084-4 s Spektroskopie (DE-588)4056138-0 s DE-604 Optothermische Spektroskopie (DE-588)4196891-8 s 1\p DE-604 Chemical analysis 134 (DE-604)BV000008780 134 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007179914&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Bialkowski, Stephen E. Photothermal spectroscopy methods for chemical analysis Chemical analysis Photothermische Methode (DE-588)4352084-4 gnd Optothermische Spektroskopie (DE-588)4196891-8 gnd Spektroskopie (DE-588)4056138-0 gnd
subject_GND	(DE-588)4352084-4 (DE-588)4196891-8 (DE-588)4056138-0
title	Photothermal spectroscopy methods for chemical analysis
title_auth	Photothermal spectroscopy methods for chemical analysis
title_exact_search	Photothermal spectroscopy methods for chemical analysis
title_full	Photothermal spectroscopy methods for chemical analysis Stephen E. Bialkowski
title_fullStr	Photothermal spectroscopy methods for chemical analysis Stephen E. Bialkowski
title_full_unstemmed	Photothermal spectroscopy methods for chemical analysis Stephen E. Bialkowski
title_short	Photothermal spectroscopy methods for chemical analysis
title_sort	photothermal spectroscopy methods for chemical analysis
topic	Photothermische Methode (DE-588)4352084-4 gnd Optothermische Spektroskopie (DE-588)4196891-8 gnd Spektroskopie (DE-588)4056138-0 gnd
topic_facet	Photothermische Methode Optothermische Spektroskopie Spektroskopie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007179914&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000008780
work_keys_str_mv	AT bialkowskistephene photothermalspectroscopymethodsforchemicalanalysis

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