Verfügbarkeit: Light scattering reviews

Light scattering reviews: 4 Single light scattering and radiative transfer

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2009 Chichester Praxis Publ. 2009
Schriftenreihe:	Springer praxis books in environmental sciences Springer praxis books in environmental sciences
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXVII, 515 S. Ill., graph. Darst.
ISBN:	9783540742753

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adam_text	2.2.1 SAMPLES PREPARATION 41 CONTENTS LIST OF CONTRIBUTORS XIII NOTES ON THE CONTRIBUTORS XV PREFACE XXIII PART I SINGLE LIGHT SCATTERING 1 SCALED ANALOGUE EXPERIMENTS IN ELECTROMAGNETIC SCATTERING BO AE. S. GUSTAFSON 3 1.1 INTRODUCTION 3 1.2 THEORETICAL BASIS FOR SCALED ELECTROMAGNETIC EXPERIMENTS 4 1.3 SCATTERING BY A FEW COMMON PARTICLE CLASSES 5 1.3.1 MIE-SOLUTIONS 6 1.3.2 EVALUATING THE SCATTERING BY HCPS AND OTHER COMPLEX NATURAL PARTICLES 10 1.4 THE SCATTERING PROBLEM IN THE LABORATORY SETTING 11 1.4.1 CONSIDERATIONS IN DESIGNING A HIGH-PRECISION SCATTERING LABORATORY 13 1.4.2 ANALOGUE PARTICLE MATERIALS 14 1.5 SCALED ANALOGUE SCATTERING LABORATORIES 16 1.5.1 THE CLASSIC LABORATORIES 16 1.5.2 THE UNIVERSITY OF FLORIDA LABORATORY 20 1.5.3 COMPLEX INTERIORS SCATTERING EXPERIMENT EXAMPLE 24 1.6 DISCUSSION 27 REFERENCES 28 2 LABORATORY MEASUREMENTS OF THE LIGHT SCATTERED BY CLOUDS OF SOLID PARTICLES BY IMAGING TECHNIQUE EDITH HADAMCIK, JEAN-BAPTISTE RENARD, ANNY-CHANTAL LEVASSEUR-REGOURD. JEAN-CLAUDE WORMS 31 2.1 INTRODUCTION 31 2.1.1 ASTRONOMICAL AND ATMOSPHERIC CONTEXT 31 2.1.2 POLARIZATION MEASUREMENTS 32 2.1.3 INSTRUMENTS 34 2.2 SAMPLES 41 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/98508927X DIGITALISIERT DURCH VI CONTENTS 2.2.2 LEVITATION TECHNIQUES, ADVANTAGES AND RESTRICTIONS 44 2.3 RESULTS 45 2.3.1 CALIBRATIONS 45 2.3.2 PHASE CURVES AND THEIR PARAMETERS 45 2.3.3 OPTICAL AND PHYSICAL PROPERTIES 49 2.3.4 NUMERICAL MODEIS 53 2.4 APPLICATIONS 58 2.4.1 SOLAR SYSTEM DUST 58 2.4.2 ATMOSPHERIC DUST 62 2.5 CONCLUSIONS AND FUTURE DEVELOPMENTS 64 REFERENCES 66 3 JONES AND MUELLER MATRICES: STRUCTURE, SYMMETRY RELATIONS AND INFORMATION CONTENT S.N. SAVENKOV 71 3.1 INTRODUCTION 71 3.2 BASIC DEFINITIONS 72 3.3 INTERNAL STRUCTURE OF A GENERAL MUELLER-JONES MATRIX 76 3.4 SYMMETRY RELATIONS FOR MUELLER-JONES MATRIX 78 3.4.1 FORWARD SCATTERING 80 3.4.2 BACKWARD SCATTERING 81 3.5 THE DEPOLARIZING MUELLER MATRIX 82 3.5.1 STRUCTURE OF THE DEPOLARIZING MUELLER MATRIX 82 3.5.2 MATRIX MODEIS OF DEPOLARIZATION 83 3.5.3 CLOUDE S COHERENCY MATRIX 89 3.5.4 BLOCK-DIAGONAL STRUCTURE OF THE MUELLER MATRIX 92 3.6 STRUCTURE AND INFORMATION CONTENT OF THE MUELLER-JONES MATRIX IN CONTINUOUS MEDIUM APPROXIMATION 98 3.6.1 MUELLER-JONES MATRICES OF BASIC TYPES OF ANISOTROPY AND PARTIAL EQUIVALENCE THEOREMS 99 3.6.2 POLAR DECOMPOSITION OF MUELLER-JONES MATRICES 101 3.6.3 GENERALIZED MATRIX EQUIVALENCE THEOREM 103 3.6.4 EIGENANALYSIS OF THE JONES MATRICES OF DICHROIC, BIREFRINGENT, AND DEGENERATE MEDIA 106 3.6. CONTENTS VII 4.3.2 DYADIC GREEN FUNCTIONS OF THE SCATTERING PROBLEMS 134 4.4 SINGULAR INTEGRAL EQUATIONS 142 4.4.1 IDEAL METALLIC SCATTER 142 4.4.2 DIELECTRIC SCATTER 146 4.4.3 RAYLEIGH S HYPOTHESIS 148 4.5 SYMMETRY AND UNITARITY 151 4.5.1 SYMMETRY 152 4.5.2 UNITARITY 153 4.6 FAR-FIELD BEHAVIOUR 158 4.6.1 THE PLANE WAVE 159 4.6.2 THE SCATTERED AND TOTAL FIELD 160 4.7 CONCLUDING REMARKS 164 REFERENCES 165 PART II RADIATIVE TRANSFER 5 SPACE-TIME GREEN FUNCTIONS FOR DIFFUSIVE RADIATION TRANSPORT, IN APPLICATION TO ACTIVE AND PASSIVE CLOUD PROBING ANTHONY B. DAVIS, IGOR N. POLONSKY, ALEXANDER MARSHAK 169 5.1 CONTEXT, MOTIVATION, METHODOLOGY. AND OVERVIEW 169 5.2 ELEMENTS OF TIME-DEPENDENT THREE-DIMENSIONAL RADIATIVE TRANSFER 172 5.2.1 RADIANT ENERGY TRANSPORT 172 5.2.2 DIRAC- BOUNDARY SOURCES 174 5.2.3 REMOTELY OBSERVABLE FIELDS 177 5.2.4 FLUX-BASED SPATIAL AND TEMPORAL MOMENTS 179 5.2.5 VERTICAL VARIATION OF SCATTERING COEFFICIENT 184 5.3 FORMULATION IN THE FOURIER-LAPLACE DOMAIN 186 5.3.1 TEMPORAL GREEN FUNCTIONS AND PULSE-STRETCHING PROBLEMS 187 5.3.2 SPATIAL GREEN FUNCTIONS AND PENCIL-BEAM PROBLEMS 187 5.4 DIFFUSION APPROXIMATION FOR OPAQUE SCATTERING MEDIA 188 5.4.1 DERIVATION FROM THE TIME-DEPENDENT 3D RT EQUATION 188 5.4.2 DIRECTIONAL AND SPATIAL ENHANCEMEUTS 191 5.4.3 BOUNDARY CONDITIONS, INCLUDING BOUNDARY SOURCES 197 5.4. VIII CONTENTS 5.6.2 UNIFORM CLOUDS WITH AN ISOTROPIC INTERNAL POINT-SOURCE, USING EXTENDED BOUNDARY CONDITIONS IN (4.34) 212 5.7 TEMPORAL GREEN FUNCTIONS APPLIED TO IN SITU CLOUD LIDAR 220 5.7.1 FORWARD MODEL FOR THE RADIOMETRIC SIGNAL 220 5.7.2 ILLUSTRATION WITH SNR ESTIMATION 221 5.8 TEMPORAL GREEN FUNCTIONS APPLIED TO OXYGEN A-BAND SPECTROSCOPY OF OVERCAST SKIES 223 5.8.1 A-BAND SPECTROSCOPY AS OBSERVATIONAL TIME-DOMAIN RT 223 5.8.2 PATH-LENGTH MOMENTS FROM BELOW 228 5.8.3 PATH-LENGTH MOMENTS FROM ABOVE 232 5.9 SPACE-TIME GREEN FUNCTIONS APPLIED TO MULTIPLE-SCATTERING CLOUD LIDAR (MUSCL) OBSERVATIONS 240 5.9.1 SPACE-BASED MUSCL SYSTEMS 241 5.9.2 GROUND-BASED AND AIRBORNE MUSCL SYSTEMS 242 5.9.3 MOMENT-BASED METHODS FOR MUSCL 244 5.9.4 DEEPER MINING OF MUSCL OBSERVATIONS FOR CLOUD INFORMATION . . 246 5.10 FURTHER APPLICATIONS TO PASSIVE SOLAR OBSERVATIONS OF CLOUDS 247 5.10.1 OPERATIONAL CLOUD REMOTE SENSING IN THE SOLAR SPECTRUM 247 5.10.2 OPACITY-DRIVEN 3D RADIATION TRANSPORT 248 5.10.3 THE INDEPENDENT PIXEL APPROXIMATION FOR STEADY/UNIFORM ILLUMINATION 248 5.10.4 THE INDEPENDENT PIXEL APPROXIMATION FOR SPACE/TIME GREEN FUNCTIONS 250 5.10.5 LANDSAT-TYPE OBSERVATIONS OF CLOUDS FROM SPACE, AND THE NONLOCAL IPA 251 5.10.6 ZENITH RADIANCE REACHING GROUND, AND THE NONLOCAL IPA 255 5.10.7 GREEN FUNCTIONS AT WORK IN THE ADJOINT PERTURBATION APPROACH T CONTENTS IX D.2 TRANSMITTED LIGHT 268 D.3 REFLECTED LIGHT 269 E SCALING EXPONENTS FOR DIFFUSIVE GREEN FUNCTION MOMENTS FROM THE RANDOM WALK APPROACH 269 E.L CAVEAT ABOUT PHOTONS AS PARTICLES OF LIGHT 270 E.2 ELEMENTS OF BROWNIAN MOTION THEORY 270 E.3 TRANSMITTED LIGHT 271 E.4 REFLECTED LIGHT 271 F SCALING EXPONENTS FOR TIME-DOMAIN ANOMALOUS DIFFUSION BY EXTENDING THE RANDOM WALK APPROACH 272 F.L ANOMALOUS DIFFUSION 272 F.2 OBSERVATIONAL VALIDATION, AND EVOLUTION TOWARD ANOMALOUS TRANSPORT 274 REFERENCES 278 6 RADIATIVE TRANSFER OF LUMINESCENCE LIGHT IN BIOLOGICAL TISSUE ALEXANDER D. KLOSE 293 6.1 INTRODUCTION 293 6.2 LIGHT-TISSUE INTERACTION 295 6.3 LUMINESCENT IMAGING PROBES 297 6.3.1 FLUORESCENT PROBES 297 6.3.2 BIOLUMINESCENT PROBES 298 6.4 RADIATIVE TRANSFER MODEL 300 6.4.1 EQUATION OF RADIATIVE TRANSFER 300 6.4.2 PARTLY-REFLECTING BOUNDARY CONDITION 300 6.4.3 PARTIAL BOUNDARY CURRENT 302 6.4.4 SCATTERING PHASE FUNCTION 302 6.5 BIOLUMINESCENCE SYSTEM 303 6.6 FLUORESCENCE SYSTEM 304 6.6.1 RATE EQUATION 304 6.6.2 TIME DOMAIN 305 6.6.3 FREQUENCY DOMAIN 306 6.6.4 STEADY-STATE DOMAIN 307 6.7 RADIATIVE TRANSFER APPROXIMATIONS 307 6.7.1 DISCRETE ORDINATES METHOD 308 6.7.2 SPHERICAL HARMONICS METHOD 311 6.7.3 SIMPLIFIED SPHERICAL HARMONICS METHOD 314 6.7. X CONTENTS 6.11 IMAGE RECONSTRUCTION 325 6.11.1 OPTIMIZATION TECHNIQUES 328 6.11.2 ALGEBRAIC RECONSTRUCTION 331 6.12 IMAGE RECONSTRUCTION EXAMPLE 332 6.13 SUMMARY AND CONCLUDING REMARKS 333 A APPENDIX 335 A.L BOUNDARY COEFFICIENTS 335 A.2 COEFFICIENTS FOR PARTIAL CURRENT 336 REFERENCES 336 7 THE CHARACTERISTIC EQUATION OF RADIATIVE TRANSFER THEORY N.N. ROGOVTSOV, F.N. BOROVIK 347 7.1 INTRODUCTION 347 7.2 STATEMENT OF THE PROBLEM 350 7.2.1 THE CLASSICAL VARIANT OF THE CHARACTERISTIC EQUATION OF RADIATION TRANSFER THEORY 350 7.2.2 REDUCING THE CLASSICAL VARIANT OF THE CHARACTERISTIC EQUATION OF RADIATIVE TRANSFER THEORY TO THE FAMILY OF REDUCED CHARACTERISTIC EQUATIONS 354 7.3 SOLVING THE CLASSICAL VARIANT OF THE CHARACTERISTIC EQUATION OF THE RADIATIVE TRANSFER THEORY IN AN ANALYTICAL FORM 358 7.3.1 GENERAL PROPERTIES OF DISCRETE SPECTRA AND EIGENFUNCTIONS OF THE REDUCED CHARACTERISTIC EQUATIONS OF THE RADIATIVE TRANSFER THEORY 359 7.3.2 OBTAINING SOLUTIONS OF INHOMOGENEOUS REDUCED CHARACTERISTIC EQUATIONS OF RADIATIVE TRANSFER THEORY IN AN ANALYTICAL FORM .... 371 7.3.3 SUBSTANTIATION OF THE ALGORITHM FOR CALCULATING DISCRETE SPECTRA OF REDUCED CHARACTERISTIC EQUATIONS OF RADIATIVE TRANSFER THEORY . 378 7.3.4 ON THE STABILITY OF SOLUTIONS OF REDUCED CHARACTERISTIC EQUATIONS AND INFINITE SYSTEMS OF LINEAR ALGEBRAIC EQUATIONS 381 7. CONTENTS XI APPENDIX D: ELEMENTARY NOTIONS OF SPECTRAL THEORY OF OPERATORS AND LINEAR OPERATOR EQUATION THEORY 412 APPENDIX E: SHTURM S METHOD AND THE SIMPLEST PROPERTIES OF JACOBI S MATRICES 414 APPENDIX F: THE BASIC NOTIONS OF THE DIFFERENCE EQUATION THEORY. PERRON S THEOREM 415 APPENDIX G: CONTINUOUS FRACTIONS. VAN VLECK S AND PINCHERLE S THEOREMS .. . 417 APPENDIX H: THE CORRECT ALGORITHM FOR CALCULATING MINIMAL SOLUTIONS OF THREE-TERM RECURRENCE RELATIONS 420 REFERENCES 421 PART III DYNAMIC AND STATIC LIGHT SCATTERING: SELECTED APPLICATIONS 8 ADVANCES IN DYNAMIC LIGHT SCATTERING TECHNIQUES P. ZAKHAROV, F. SCHEFFOLD 433 8.1 INTRODUCTION 433 8.2 SCATTERING REGIMES 435 8.2.1 SINGLE SCATTERING LIMIT 435 8.2.2 MULTIPLE SCATTERING LIMIT 437 8.2.3 INTERMEDIATE SCATTERING REGIME 439 8.3 GENERAL DLS TECHNIQUES 441 8.3.1 MULTI-TAU CORRELATION SCHEME 441 8.3.2 BINNING TECHNIQUE 443 8.3.3 SPECTRAL ANALYSIS IN DLS 444 8.4 PROBLEM OF NON-ERGODICITY 444 8.4.1 PUSEY AND VAN MEGEN METHOD 446 8.4.2 MULTI-SPECKLE TECHNIQUE 446 8.4.3 DOUBLE-CELL TECHNIQUE 447 8.4.4 ECHO-TECHNIQUE WITH SAMPLE ROTATION 448 8.4.5 ECHO-TECHNIQUE WITHOUT SAMPLE ROTATION 449 8.4.6 COMBINATION OF METHODS 451 8.5 TIME-RESOLVED METHODS 452 8.5.1 TIME-RESOLVED SPECTRAL ANALYSIS 452 8.5.2 TIME-RESOLVED CORRELATION ANALYSIS 454 8.5. XII CONTENTS 9 STATIC AND DYNAMIC LIGHT SCATTERING BY AEROSOLS IN A CONTROLLED ENVIRONMENT R.P. SINGH 469 9.1 INTRODUCTION 469 9.1.1 ATMOSPHERIC PARTICLES AND THEIR DISPERSION 470 9.1.2 PARTICLE SIZE 470 9.1.3 DIFFERENT METHODS FOR PARTICLE SIZING 471 9.2 OPTICAL METHODS 472 9.2.1 STATIC LIGHT SCATTERING 472 9.2.2 LASER DIFFRACTION 475 9.2.3 DYNAMIC LIGHT SCATTERING 476 9.3 AEROSOL SIZE AND DISTRIBUTION 483 9.3.1 EFFECT OF TEMPERATURE 484 9.3.2 EFFECT OF HUMIDITY 485 9.3.3 EFFECT OF CONCENTRATION 487 9.4 AEROSOLS AND CLIMATE 494 9.5 CONCLUSION 494 REFERENCES 495 INDEX 511
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spelling	Light scattering reviews 4 Single light scattering and radiative transfer Alexander A. Kokhanovsky (ed.) Berlin [u.a.] Springer 2009 Chichester Praxis Publ. 2009 XXVII, 515 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer praxis books in environmental sciences Kochanovskij, Aleksandr A. 1961- Sonstige (DE-588)122865634 oth (DE-604)BV023418561 4 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017146931&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Light scattering reviews
title	Light scattering reviews
title_auth	Light scattering reviews
title_exact_search	Light scattering reviews
title_full	Light scattering reviews 4 Single light scattering and radiative transfer Alexander A. Kokhanovsky (ed.)
title_fullStr	Light scattering reviews 4 Single light scattering and radiative transfer Alexander A. Kokhanovsky (ed.)
title_full_unstemmed	Light scattering reviews 4 Single light scattering and radiative transfer Alexander A. Kokhanovsky (ed.)
title_short	Light scattering reviews
title_sort	light scattering reviews single light scattering and radiative transfer
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