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Titre : Physical optics of ocean water Type de document : texte imprimé Auteurs : K. S. Shifrin ; David Oliver ; American Institute of Physics Editeur : New York : American institute of physics Année de publication : 1988 Importance : 1 vol(285 p.) Présentation : ill Format : 24 cm ISBN/ISSN/EAN : 978-0-88318-529-2 Note générale : Translation of: Vvedenie v optiku mori͡a Langues : Anglais (eng) Catégories : Physique Mots-clés : Océanographie optique
Optique physique :eau de merIndex. décimale : 551.4 Géomorphologie, hydrosphère Note de contenu :
Sommaire
Hydrooptical characteristics 1
112 Typical values 7
12 Properties of the light field in the ocean 10
122 Typical values 16
Gershuns formula 18
13 Depth of visibility of a white disc and the colour of the sea 19
132 Colour of the sea22
Factors determining the optical properties of ocean water28
212 Inorganic salts and gases 29
213 Organic compounds Yellow substance 35
22 Suspensions 39
suspended material in the worlds oceans 45
Molecular optics of ocean water 55
32 Optical constants of pure water pure ocean water and dissolved organic substances 59
322 Pure ocean water 66
323 Dissolved organic substances 70
33 Suspended particles 73
34 Theory of the molecular scattering of light by ocean water 77
342 The effect of fluctuations in molecule orientation 83
343 The effect of dissolved substances 85
344 Fine structure of the molecular scattering of light 87
35 Data on the molecular scattering of light by ocean water 90
352 Molecular scattering of light by ocean water 95
Scattering by suspended particles 100
412 Convergence Two methods of notation 105
413 Intensity of scattered light Scattering coefficients and volume scattering function Characteristics of scattering asymmetry 108
42 Polarized light scattering 111
422 The scattering matrix 114
43 Limiting cases for small and large particles 116
432 Large particles 119
44 Soft particles 125
442 The physical optics approximation 127
tables and their analysis 131
46 Scattering of an ensemble of particles 138
462 Distribution functions 142
532 General properties of the scattering functions 187
463 Limiting cases for small and large particles small angle scattering soft particles 147
tables and their analysis 149
Optical properties of real ocean water 155
512 Absorption by phytoplankton cells terrigenous particles and detritus 160
52 Absorption of light by ocean water 165
522 Variation in the absorption coefficient 173
523 Relative role of the different components 175
53 Light scattered by ocean water 179
533 Statistical characteristics and models of the scattering functions 191
534 Variation in the scattering coefficient 197
54 Polarized light scattering 200
542 Light scattering matrices for ocean water 202
55 Optical characteristics of the waters of the worlds oceans 205
552 Attenuation coefficient field 206
Inverse problems 211
612 Determination of the characteristics of a disperse medium from the scattering of light 215
62 The restricted problem 217
622 The fitting method 220
63 The method of fluctuations 224
632 Experimental verification and accuracy 228
64 Method of small angles 232
642 Experimental testing Essential range of angles 236
643 Use of actual and integral values of the scattering function Accuracy of the method 240
65 The method of spectral transmittance and the method of the total scattering function 243
652 Method of the total scattering function 246
66 Numerical inversion methods 250
662 Consideration of additional optical information 255
67 Determination of the composition of marine suspension 258
672 Improved version 263
673 Combined application of the statistical regularization and fluctuation methods 268
References 271
Côte titre : Fs/0293 Physical optics of ocean water [texte imprimé] / K. S. Shifrin ; David Oliver ; American Institute of Physics . - New York : American institute of physics, 1988 . - 1 vol(285 p.) : ill ; 24 cm.
ISBN : 978-0-88318-529-2
Translation of: Vvedenie v optiku mori͡a
Langues : Anglais (eng)
Catégories : Physique Mots-clés : Océanographie optique
Optique physique :eau de merIndex. décimale : 551.4 Géomorphologie, hydrosphère Note de contenu :
Sommaire
Hydrooptical characteristics 1
112 Typical values 7
12 Properties of the light field in the ocean 10
122 Typical values 16
Gershuns formula 18
13 Depth of visibility of a white disc and the colour of the sea 19
132 Colour of the sea22
Factors determining the optical properties of ocean water28
212 Inorganic salts and gases 29
213 Organic compounds Yellow substance 35
22 Suspensions 39
suspended material in the worlds oceans 45
Molecular optics of ocean water 55
32 Optical constants of pure water pure ocean water and dissolved organic substances 59
322 Pure ocean water 66
323 Dissolved organic substances 70
33 Suspended particles 73
34 Theory of the molecular scattering of light by ocean water 77
342 The effect of fluctuations in molecule orientation 83
343 The effect of dissolved substances 85
344 Fine structure of the molecular scattering of light 87
35 Data on the molecular scattering of light by ocean water 90
352 Molecular scattering of light by ocean water 95
Scattering by suspended particles 100
412 Convergence Two methods of notation 105
413 Intensity of scattered light Scattering coefficients and volume scattering function Characteristics of scattering asymmetry 108
42 Polarized light scattering 111
422 The scattering matrix 114
43 Limiting cases for small and large particles 116
432 Large particles 119
44 Soft particles 125
442 The physical optics approximation 127
tables and their analysis 131
46 Scattering of an ensemble of particles 138
462 Distribution functions 142
532 General properties of the scattering functions 187
463 Limiting cases for small and large particles small angle scattering soft particles 147
tables and their analysis 149
Optical properties of real ocean water 155
512 Absorption by phytoplankton cells terrigenous particles and detritus 160
52 Absorption of light by ocean water 165
522 Variation in the absorption coefficient 173
523 Relative role of the different components 175
53 Light scattered by ocean water 179
533 Statistical characteristics and models of the scattering functions 191
534 Variation in the scattering coefficient 197
54 Polarized light scattering 200
542 Light scattering matrices for ocean water 202
55 Optical characteristics of the waters of the worlds oceans 205
552 Attenuation coefficient field 206
Inverse problems 211
612 Determination of the characteristics of a disperse medium from the scattering of light 215
62 The restricted problem 217
622 The fitting method 220
63 The method of fluctuations 224
632 Experimental verification and accuracy 228
64 Method of small angles 232
642 Experimental testing Essential range of angles 236
643 Use of actual and integral values of the scattering function Accuracy of the method 240
65 The method of spectral transmittance and the method of the total scattering function 243
652 Method of the total scattering function 246
66 Numerical inversion methods 250
662 Consideration of additional optical information 255
67 Determination of the composition of marine suspension 258
672 Improved version 263
673 Combined application of the statistical regularization and fluctuation methods 268
References 271
Côte titre : Fs/0293 Exemplaires (1)
Code-barres Cote Support Localisation Section Disponibilité Fs/0293 Fs/0293 Livre Bibliothéque des sciences Anglais Disponible
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