Verfügbarkeit: Atomic and molecular spectroscopy

Atomic and molecular spectroscopy: basic aspects and practical applications ; with 14 tables

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Bibliographische Detailangaben
1. Verfasser:	Svanberg, Sune (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2004
Ausgabe:	4., rev. ed.
Schriftenreihe:	Advanced texts in physics
Schlagworte:	Spektroskopie Molekülspektroskopie Atomspektroskopie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 473 - 574
Beschreibung:	XVII, 588 S. Ill., graph. Darst.
ISBN:	3540203826 9783540203827

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Datensatz im Suchindex

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adam_text	SUNE SVANBERG ATOMIC AND MOLECULAR SPECTROSCOPY BASIC ASPECTS AND PRACTICAL APPLICATIONS FOURTH, REVISED EDITION WITH 404 FIGURES AND 14 TABLES SPRINGER CONTENTS 1. INTRODUCTION 1 2. ATOMIC STRUCTURE 5 2.1 ONE-ELECTRON SYSTEMS 5 2.2 ALKALI ATOMS 7 2.3 MAGNETIC EFFECTS 8 2.3.1 PRECESSIONAL MOTION 8 2.3.2 SPIN-ORBIT INTERACTION 9 2.4 GENERAL MANY-ELECTRON SYSTEMS 10 2.5 THE INFLUENCE OF EXTERNAL FIELDS 17 2.5.1 MAGNETIC FIELDS 18 2.5.2 ELECTRIC -FIELDS 21 2.6 HYPERFINE STRUCTURE 23 2.6.1 MAGNETIC HYPERFINE STRUCTURE 23 2.6.2 ELECTRIC HYPERFINE STRUCTURE 25 2.7 THE INFLUENCE OF EXTERNAL FIELDS (HFS) 26 2.8 ISOTOPIC SHIFTS 29 3. MOLECULAR STRUCTURE 31 3.1 ELECTRONIC LEVELS 32 3.2 ROTATIONAL ENERGY 35 3.3 VIBRATIONAL ENERGY 36 3.4 POLYATOMIC MOLECULES 37 3.5 CLUSTERS 39 3.6 OTHER MOLECULAR STRUCTURES 40 4. RADIATION AND SCATTERING PROCESSES 41 4.1 RESONANCE RADIATION 41 4.2 SPECTRA GENERATED BY DIPOLE TRANSITIONS 51 4.2.1 ATOMS 52 4.2.2. MOLECULES 55 4.3 RAYLEIGH AND RAMAN SCATTERING 61 4.4 RAMAN SPECTRA 63 4.4.1 VIBRATIONAL RAMAN SPECTRA 63 XIV CONTENTS 4.4.2 ROTATIONAL RAMAN SPECTRA 64 4.4.3 VIBRATIONAL-ROTATIONAL RAMAN SPECTRA 64 4.5 MIE SCATTERING 65 4.6 ATMOSPHERIC SCATTERING PHENOMENA 66 4.7 COMPARISON BETWEEN DIFFERENT RADIATION AND SCATTERING PROCESSES 69 4.8 COLLISION-INDUCED PROCESSES 70 5. SPECTROSCOPY OF INNER ELECTRONS 71 5.1 X-RAY SPECTROSCOPY 71 5.1.1 X-RAY EMISSION SPECTROSCOPY 73 5.1.2 X-RAY ABSORPTION SPECTROSCOPY 79 5.1.3 X-RAY IMAGING APPLICATIONS 82 5.2 PHOTOELECTRON SPECTROSCOPY 85 5.2.1 XPS TECHNIQUES AND RESULTS 87 5.2.2 CHEMICAL SHIFTS 90 5.3 AUGER ELECTRON SPECTROSCOPY 95 6. OPTICAL SPECTROSCOPY 97 6.1 LIGHT SOURCES 97 6.1.1 LINE LIGHT SOURCES 98 6.1.2 CONTINUUM LIGHT SOURCES 106 6.1.3 SYNCHROTRON RADIATION 108 6.1.4 NATURAL RADIATION SOURCES 113 6.2 SPECTRAL RESOLUTION INSTRUMENTS 114 6.2.1 PRISM SPECTROMETERS 114 6.2.2 GRATING SPECTROMETERS 117 6.2.3 THE FABRY-PEROT INTERFEROMETER 121 6.2.4 THE FOURIER TRANSFORM SPECTROMETER 126 6.3 DETECTORS 128 6.4 OPTICAL COMPONENTS AND MATERIALS 134 6.4.1 INTERFERENCE FILTERS AND MIRRORS 134 6.4.2 ABSORPTION FILTERS 138 6.4.3 POLARIZERS 141 6.4.4 OPTICAL MATERIALS 143 6.4.5 INFLUENCE OF THE TRANSMISSION MEDIUM 144 6.5 OPTICAL METHODS OF CHEMICAL ANALYSIS 148 6.5.1 THE BEER-LAMBERT LAW 149 6.5.2 ATOMIC ABSORPTION/EMISSION SPECTROPHOTOMETRY 151 6.5.3 BURNERS, FLAMES, SAMPLE PREPARATION AND MEASUREMENTS 155 6.5.4 MODIFIED METHODS OF ATOMIZATION 156 6.5.5 MULTI-ELEMENT ANALYSIS 157 6.5.6 MOLECULAR SPECTROPHOTOMETRY 158 6.5.7 RAMAN SPECTROSCOPY 160 CONTENTS XV 6.6 OPTICAL REMOTE SENSING 162 6.6.1 ATMOSPHERIC MONITORING WITH PASSIVE TECHNIQUES 164 6.6.2 LAND AND WATER MEASUREMENTS WITH PASSIVE TECHNIQUES 171 6.7 ASTROPHYSICAL SPECTROSCOPY 176 7. RADIO-FREQUENCY SPECTROSCOPY 187 7.1 RESONANCE METHODS 187 7.1.1 MAGNETIC RESONANCE 187 7.1.2 ATOMIC-BEAM MAGNETIC RESONANCE 189 7.1.3 OPTICAL PUMPING 197 7.1.4 OPTICAL DOUBLE RESONANCE 200 7.1.5 LEVEL-CROSSING SPECTROSCOPY 203 7.1.6 RESONANCE METHODS FOR LIQUIDS AND SOLIDS 209 7.2 MICROWAVE RADIOMETRY 218 7.3 RADIO ASTRONOMY 222 8. LASERS 227 8.1 BASIC PRINCIPLES 227 8.2 COHERENCE 230 8.3 RESONATORS AND MODE STRUCTURE 231 8.4 FIXED-FREQUENCY LASERS 236 8.4.1 THE RUBY LASER 236 8.4.2 FOUR-LEVEL LASERS 238 8.4.3 PULSED GAS LASERS 241 8.4.4 THE HE-NE LASER 243 8.4.5 GASEOUS ION LASERS 244 8.5 TUNABLE LASERS 246 8.5.1 DYE LASERS 246 8.5.2 COLOUR-CENTRE LASERS 255 8.5.3 TUNABLE SOLID-STATE LASERS 256 8.5.4 TUNABLE CO 2 LASERS 257 8.5.5 SEMICONDUCTOR LASERS 259 8.6 NONLINEAR OPTICAL PHENOMENA 262 8.7 ULTRA-SHORT AND ULTRA-HIGH-POWER LASER PULSE GENERATION 276 8.7.1 SHORT-PULSE GENERATION BY MODE-LOCKING 276 8.7.2 GENERATION OF ULTRA-HIGH POWER PULSES 282 9. LASER SPECTROSCOPY 287 9.1 BASIC PRINCIPLES 287 9.1.1 COMPARISON BETWEEN CONVENTIONAL LIGHT SOURCES AND LASERS 287 9.1.2 SATURATION 287 9.1.3 EXCITATION METHODS 289 XVI CONTENTS 9.1.4 DETECTION METHODS 290 9.1.5 LASER WAVELENGTH SETTING 292 9.2 DOPPLER-LIMITED TECHNIQUES 294 9.2.1 ABSORPTION MEASUREMENTS 294 9.2.2 INTRACAVITY ABSORPTION MEASUREMENTS 296 9.2.3 ABSORPTION MEASUREMENTS ON EXCITED STATES 297 9.2.4 LEVEL LABELLING 298 9.2.5 TWO-PHOTON ABSORPTION MEASUREMENTS 299 9.2.6 OPTO-GALVANIC SPECTROSCOPY 301 9.2.7 SINGLE-ATOM AND SINGLE-MOLECULE DETECTION 304 9.2.8 OPTO-ACOUSTIC SPECTROSCOPY 304 9.3 OPTICAL DOUBLE-RESONANCE AND LEVEL-CROSSING EXPERIMENTS WITH LASER EXCITATION 306 9.4 TIME-RESOLVED ATOMIC AND MOLECULAR SPECTROSCOPY 311 9.4.1 GENERATION OF SHORT OPTICAL PULSES 312 9.4.2 MEASUREMENT TECHNIQUES FOR OPTICAL TRANSIENTS 312 9.4.3 BACKGROUND TO LIFETIME MEASUREMENTS 318 9.4.4 SURVEY OF METHODS OF MEASUREMENT FOR RADIATIVE PROPERTIES 319 9.4.5 QUANTUM-BEAT SPECTROSCOPY 325 9.5 ULTRAFAST SPECTROSCOPY 331 9.5.1 ULTRAFAST MEASUREMENT TECHNIQUES 332 9.5.2 MOLECULAR REACTION DYNAMICS (FEMTOCHEMISTRY) 336 9.5.3 COHERENT CONTROL 338 9.6 HIGH-POWER LASER EXPERIMENTS 339 9.6.1 ABOVE THRESHOLD IONIZATION (ATI) 340 9.6.2 HIGH HARMONIC GENERATION 342 9.6.3 X-RAY LASER PUMPING 347 9.6.4 BROADBAND X-RAY GENERATION 348 9.6.5 RELATIVISTIC EFFECTS AND LASER ACCELERATORS 351 9.6.6 LASER-NUCLEAR INTERACTIONS AND LASER-DRIVEN FUSION. . . 351 9.7 HIGH-RESOLUTION LASER SPECTROSCOPY 351 9.7.1 SPECTROSCOPY ON COLLIMATED ATOMIC AND IONIC BEAMS . 352 9.7.2 SATURATION SPECTROSCOPY AND RELATED TECHNIQUES 359 9.7.3 DOPPLER-FREE TWO-PHOTON ABSORPTION 368 9.8 COOLING AND TRAPPING OF IONS AND ATOMS 374 9.8.1 INTRODUCTION 374 9.8.2 ION TRAPS 376 9.8.3 BASIC LASER COOLING IN TRAPS 377 9.8.4 TRAPPED ION SPECTROSCOPY 379 9.8.5 ATOM COOLING AND TRAPPING 379 9.8.6 SUB-RECOIL COOLING 382 9.8.7 ATOM OPTICS 384 9.8.8 BOSE-EINSTEIN CONDENSATION AND ATOM LASERS 384 9.8.9 ULTRACOLD FERMIONIC GASES 387 CONTENTS XVII 10. LASER-SPECTROSCOPIC APPLICATIONS 389 10.1 DIAGNOSTICS OF COMBUSTION PROCESSES 389 10.1.1 BACKGROUND 389 10.1.2 LASER-INDUCED FLUORESCENCE AND RELATED TECHNIQUES . . 392 10.1.3 RAMAN SPECTROSCOPY 398 10.1.4 COHERENT ANTI-STOKES RAMAN SCATTERING 398 10.1.5 VELOCITY MEASUREMENTS 403 10.2 LASER REMOTE SENSING OF THE ATMOSPHERE 406 10.2.1 OPTICAL HETERODYNE DETECTION 407 10.2.2 LONG-PATH ABSORPTION TECHNIQUES 408 10.2.3 LIDAR TECHNIQUES 414 10.3 LASER-INDUCED FLUORESCENCE AND RAMAN SPECTROSCOPY IN LIQUIDS AND SOLIDS 425 10.3.1 HYDROSPHERIC REMOTE SENSING 426 10.3.2 VEGETATION MONITORING 429 10.3.3 MONITORING OF SURFACE LAYERS 430 10.4 LASER-INDUCED CHEMICAL PROCESSES 435 10.4.1 LASER-INDUCED CHEMISTRY 435 10.4.2 LASER ISOTOPE SEPARATION 436 10.5 SPECTROSCOPIC ASPECTS OF LASERS IN MEDICINE 441 10.5.1 THERMAL INTERACTION OF LASER LIGHT WITH TISSUE 441 10.5.2 PHOTODYNAMIC TUMOUR THERAPY 443 10.5.3 TISSUE DIAGNOSTICS WITH LASER-INDUCED FLUORESCENCE . . 447 10.5.4 SCATTERING SPECTROSCOPY AND TISSUE TRANSILLUMINATION. 454 QUESTIONS AND EXERCISES 461 REFERENCES 473 INDEX 575
adam_txt	SUNE SVANBERG ATOMIC AND MOLECULAR SPECTROSCOPY BASIC ASPECTS AND PRACTICAL APPLICATIONS FOURTH, REVISED EDITION WITH 404 FIGURES AND 14 TABLES SPRINGER CONTENTS 1. INTRODUCTION 1 2. ATOMIC STRUCTURE 5 2.1 ONE-ELECTRON SYSTEMS 5 2.2 ALKALI ATOMS 7 2.3 MAGNETIC EFFECTS 8 2.3.1 PRECESSIONAL MOTION 8 2.3.2 SPIN-ORBIT INTERACTION 9 2.4 GENERAL MANY-ELECTRON SYSTEMS 10 2.5 THE INFLUENCE OF EXTERNAL FIELDS 17 2.5.1 MAGNETIC FIELDS 18 2.5.2 ELECTRIC -FIELDS 21 2.6 HYPERFINE STRUCTURE 23 2.6.1 MAGNETIC HYPERFINE STRUCTURE 23 2.6.2 ELECTRIC HYPERFINE STRUCTURE 25 2.7 THE INFLUENCE OF EXTERNAL FIELDS (HFS) 26 2.8 ISOTOPIC SHIFTS 29 3. MOLECULAR STRUCTURE 31 3.1 ELECTRONIC LEVELS 32 3.2 ROTATIONAL ENERGY 35 3.3 VIBRATIONAL ENERGY 36 3.4 POLYATOMIC MOLECULES 37 3.5 CLUSTERS 39 3.6 OTHER MOLECULAR STRUCTURES 40 4. RADIATION AND SCATTERING PROCESSES 41 4.1 RESONANCE RADIATION 41 4.2 SPECTRA GENERATED BY DIPOLE TRANSITIONS 51 4.2.1 ATOMS 52 4.2.2. MOLECULES 55 4.3 RAYLEIGH AND RAMAN SCATTERING 61 4.4 RAMAN SPECTRA 63 4.4.1 VIBRATIONAL RAMAN SPECTRA 63 XIV CONTENTS 4.4.2 ROTATIONAL RAMAN SPECTRA 64 4.4.3 VIBRATIONAL-ROTATIONAL RAMAN SPECTRA 64 4.5 MIE SCATTERING 65 4.6 ATMOSPHERIC SCATTERING PHENOMENA 66 4.7 COMPARISON BETWEEN DIFFERENT RADIATION AND SCATTERING PROCESSES 69 4.8 COLLISION-INDUCED PROCESSES 70 5. SPECTROSCOPY OF INNER ELECTRONS 71 5.1 X-RAY SPECTROSCOPY 71 5.1.1 X-RAY EMISSION SPECTROSCOPY 73 5.1.2 X-RAY ABSORPTION SPECTROSCOPY 79 5.1.3 X-RAY IMAGING APPLICATIONS 82 5.2 PHOTOELECTRON SPECTROSCOPY 85 5.2.1 XPS TECHNIQUES AND RESULTS 87 5.2.2 CHEMICAL SHIFTS 90 5.3 AUGER ELECTRON SPECTROSCOPY 95 6. OPTICAL SPECTROSCOPY 97 6.1 LIGHT SOURCES 97 6.1.1 LINE LIGHT SOURCES 98 6.1.2 CONTINUUM LIGHT SOURCES 106 6.1.3 SYNCHROTRON RADIATION 108 6.1.4 NATURAL RADIATION SOURCES 113 6.2 SPECTRAL RESOLUTION INSTRUMENTS 114 6.2.1 PRISM SPECTROMETERS 114 6.2.2 GRATING SPECTROMETERS 117 6.2.3 THE FABRY-PEROT INTERFEROMETER 121 6.2.4 THE FOURIER TRANSFORM SPECTROMETER 126 6.3 DETECTORS 128 6.4 OPTICAL COMPONENTS AND MATERIALS 134 6.4.1 INTERFERENCE FILTERS AND MIRRORS 134 6.4.2 ABSORPTION FILTERS 138 6.4.3 POLARIZERS 141 6.4.4 OPTICAL MATERIALS 143 6.4.5 INFLUENCE OF THE TRANSMISSION MEDIUM 144 6.5 OPTICAL METHODS OF CHEMICAL ANALYSIS 148 6.5.1 THE BEER-LAMBERT LAW 149 6.5.2 ATOMIC ABSORPTION/EMISSION SPECTROPHOTOMETRY 151 6.5.3 BURNERS, FLAMES, SAMPLE PREPARATION AND MEASUREMENTS 155 6.5.4 MODIFIED METHODS OF ATOMIZATION 156 6.5.5 MULTI-ELEMENT ANALYSIS 157 6.5.6 MOLECULAR SPECTROPHOTOMETRY 158 6.5.7 RAMAN SPECTROSCOPY 160 CONTENTS XV 6.6 OPTICAL REMOTE SENSING 162 6.6.1 ATMOSPHERIC MONITORING WITH PASSIVE TECHNIQUES 164 6.6.2 LAND AND WATER MEASUREMENTS WITH PASSIVE TECHNIQUES 171 6.7 ASTROPHYSICAL SPECTROSCOPY 176 7. RADIO-FREQUENCY SPECTROSCOPY 187 7.1 RESONANCE METHODS 187 7.1.1 MAGNETIC RESONANCE 187 7.1.2 ATOMIC-BEAM MAGNETIC RESONANCE 189 7.1.3 OPTICAL PUMPING 197 7.1.4 OPTICAL DOUBLE RESONANCE 200 7.1.5 LEVEL-CROSSING SPECTROSCOPY 203 7.1.6 RESONANCE METHODS FOR LIQUIDS AND SOLIDS 209 7.2 MICROWAVE RADIOMETRY 218 7.3 RADIO ASTRONOMY 222 8. LASERS 227 8.1 BASIC PRINCIPLES 227 8.2 COHERENCE 230 8.3 RESONATORS AND MODE STRUCTURE 231 8.4 FIXED-FREQUENCY LASERS 236 8.4.1 THE RUBY LASER 236 8.4.2 FOUR-LEVEL LASERS 238 8.4.3 PULSED GAS LASERS 241 8.4.4 THE HE-NE LASER 243 8.4.5 GASEOUS ION LASERS 244 8.5 TUNABLE LASERS 246 8.5.1 DYE LASERS 246 8.5.2 COLOUR-CENTRE LASERS 255 8.5.3 TUNABLE SOLID-STATE LASERS 256 8.5.4 TUNABLE CO 2 LASERS 257 8.5.5 SEMICONDUCTOR LASERS 259 8.6 NONLINEAR OPTICAL PHENOMENA 262 8.7 ULTRA-SHORT AND ULTRA-HIGH-POWER LASER PULSE GENERATION 276 8.7.1 SHORT-PULSE GENERATION BY MODE-LOCKING 276 8.7.2 GENERATION OF ULTRA-HIGH POWER PULSES 282 9. LASER SPECTROSCOPY 287 9.1 BASIC PRINCIPLES 287 9.1.1 COMPARISON BETWEEN CONVENTIONAL LIGHT SOURCES AND LASERS 287 9.1.2 SATURATION 287 9.1.3 EXCITATION METHODS 289 XVI CONTENTS 9.1.4 DETECTION METHODS 290 9.1.5 LASER WAVELENGTH SETTING 292 9.2 DOPPLER-LIMITED TECHNIQUES 294 9.2.1 ABSORPTION MEASUREMENTS 294 9.2.2 INTRACAVITY ABSORPTION MEASUREMENTS 296 9.2.3 ABSORPTION MEASUREMENTS ON EXCITED STATES 297 9.2.4 LEVEL LABELLING 298 9.2.5 TWO-PHOTON ABSORPTION MEASUREMENTS 299 9.2.6 OPTO-GALVANIC SPECTROSCOPY 301 9.2.7 SINGLE-ATOM AND SINGLE-MOLECULE DETECTION 304 9.2.8 OPTO-ACOUSTIC SPECTROSCOPY 304 9.3 OPTICAL DOUBLE-RESONANCE AND LEVEL-CROSSING EXPERIMENTS WITH LASER EXCITATION 306 9.4 TIME-RESOLVED ATOMIC AND MOLECULAR SPECTROSCOPY 311 9.4.1 GENERATION OF SHORT OPTICAL PULSES 312 9.4.2 MEASUREMENT TECHNIQUES FOR OPTICAL TRANSIENTS 312 9.4.3 BACKGROUND TO LIFETIME MEASUREMENTS 318 9.4.4 SURVEY OF METHODS OF MEASUREMENT FOR RADIATIVE PROPERTIES 319 9.4.5 QUANTUM-BEAT SPECTROSCOPY 325 9.5 ULTRAFAST SPECTROSCOPY 331 9.5.1 ULTRAFAST MEASUREMENT TECHNIQUES 332 9.5.2 MOLECULAR REACTION DYNAMICS (FEMTOCHEMISTRY) 336 9.5.3 COHERENT CONTROL 338 9.6 HIGH-POWER LASER EXPERIMENTS 339 9.6.1 ABOVE THRESHOLD IONIZATION (ATI) 340 9.6.2 HIGH HARMONIC GENERATION 342 9.6.3 X-RAY LASER PUMPING 347 9.6.4 BROADBAND X-RAY GENERATION 348 9.6.5 RELATIVISTIC EFFECTS AND LASER ACCELERATORS 351 9.6.6 LASER-NUCLEAR INTERACTIONS AND LASER-DRIVEN FUSION. . . 351 9.7 HIGH-RESOLUTION LASER SPECTROSCOPY 351 9.7.1 SPECTROSCOPY ON COLLIMATED ATOMIC AND IONIC BEAMS . 352 9.7.2 SATURATION SPECTROSCOPY AND RELATED TECHNIQUES 359 9.7.3 DOPPLER-FREE TWO-PHOTON ABSORPTION 368 9.8 COOLING AND TRAPPING OF IONS AND ATOMS 374 9.8.1 INTRODUCTION 374 9.8.2 ION TRAPS 376 9.8.3 BASIC LASER COOLING IN TRAPS 377 9.8.4 TRAPPED ION SPECTROSCOPY 379 9.8.5 ATOM COOLING AND TRAPPING 379 9.8.6 SUB-RECOIL COOLING 382 9.8.7 ATOM OPTICS 384 9.8.8 BOSE-EINSTEIN CONDENSATION AND "ATOM LASERS" 384 9.8.9 ULTRACOLD FERMIONIC GASES 387 CONTENTS XVII 10. LASER-SPECTROSCOPIC APPLICATIONS 389 10.1 DIAGNOSTICS OF COMBUSTION PROCESSES 389 10.1.1 BACKGROUND 389 10.1.2 LASER-INDUCED FLUORESCENCE AND RELATED TECHNIQUES . . 392 10.1.3 RAMAN SPECTROSCOPY 398 10.1.4 COHERENT ANTI-STOKES RAMAN SCATTERING 398 10.1.5 VELOCITY MEASUREMENTS 403 10.2 LASER REMOTE SENSING OF THE ATMOSPHERE 406 10.2.1 OPTICAL HETERODYNE DETECTION 407 10.2.2 LONG-PATH ABSORPTION TECHNIQUES 408 10.2.3 LIDAR TECHNIQUES 414 10.3 LASER-INDUCED FLUORESCENCE AND RAMAN SPECTROSCOPY IN LIQUIDS AND SOLIDS 425 10.3.1 HYDROSPHERIC REMOTE SENSING 426 10.3.2 VEGETATION MONITORING 429 10.3.3 MONITORING OF SURFACE LAYERS 430 10.4 LASER-INDUCED CHEMICAL PROCESSES 435 10.4.1 LASER-INDUCED CHEMISTRY 435 10.4.2 LASER ISOTOPE SEPARATION 436 10.5 SPECTROSCOPIC ASPECTS OF LASERS IN MEDICINE 441 10.5.1 THERMAL INTERACTION OF LASER LIGHT WITH TISSUE 441 10.5.2 PHOTODYNAMIC TUMOUR THERAPY 443 10.5.3 TISSUE DIAGNOSTICS WITH LASER-INDUCED FLUORESCENCE . . 447 10.5.4 SCATTERING SPECTROSCOPY AND TISSUE TRANSILLUMINATION. 454 QUESTIONS AND EXERCISES 461 REFERENCES 473 INDEX 575
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illustrated	Illustrated
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institution	BVB
isbn	3540203826 9783540203827
language	English
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spelling	Svanberg, Sune Verfasser aut Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables Sune Svanberg 4., rev. ed. Berlin [u.a.] Springer 2004 XVII, 588 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advanced texts in physics Literaturverz. S. 473 - 574 Spektroskopie (DE-588)4056138-0 gnd rswk-swf Molekülspektroskopie (DE-588)4128850-6 gnd rswk-swf Atomspektroskopie (DE-588)4143333-6 gnd rswk-swf Atomspektroskopie (DE-588)4143333-6 s DE-604 Molekülspektroskopie (DE-588)4128850-6 s Spektroskopie (DE-588)4056138-0 s 1\p DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014569329&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	Svanberg, Sune Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables Spektroskopie (DE-588)4056138-0 gnd Molekülspektroskopie (DE-588)4128850-6 gnd Atomspektroskopie (DE-588)4143333-6 gnd
subject_GND	(DE-588)4056138-0 (DE-588)4128850-6 (DE-588)4143333-6
title	Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables
title_auth	Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables
title_exact_search	Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables
title_exact_search_txtP	Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables
title_full	Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables Sune Svanberg
title_fullStr	Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables Sune Svanberg
title_full_unstemmed	Atomic and molecular spectroscopy basic aspects and practical applications ; with 14 tables Sune Svanberg
title_short	Atomic and molecular spectroscopy
title_sort	atomic and molecular spectroscopy basic aspects and practical applications with 14 tables
title_sub	basic aspects and practical applications ; with 14 tables
topic	Spektroskopie (DE-588)4056138-0 gnd Molekülspektroskopie (DE-588)4128850-6 gnd Atomspektroskopie (DE-588)4143333-6 gnd
topic_facet	Spektroskopie Molekülspektroskopie Atomspektroskopie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014569329&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT svanbergsune atomicandmolecularspectroscopybasicaspectsandpracticalapplicationswith14tables

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