Multiple Light Scattering: Tables, Formulas, and Applications, Volume 2 |
Contents
PREFACE | 295 |
Phase Functions | 306 |
Results for the HenyeyGreenstein Phase Function | 331 |
Copyright | |
11 other sections not shown
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Common terms and phrases
absorption lines aerosol albedo anisotropic approximation arbitrary assumptions Astrophys asymmetry factor asymptotic Atmos azimuth azimuth-independent Chapter coefficients computed conservative scattering corresponding curve diffuse reflection direction disk Display distribution equation example expansion finite formulas Fourier fraction geometric graphs Hansen haze Hovenier Hulst incidence INFINITE integral intensity isotropic scattering Kattawar LAMBERT SURFACE layer Legendre lidar light linear method Mie theory multiple scattering notation observed obtained optical depth optical thickness ORDER FIRST ORDER ORDER SECOND ORDER ORDER THIRD ORDER particles PEAK phase function phase matrix plane of reference planet problem radiance radiation field ratio Rayleigh scattering refer REFLECTED ABSORBED TRANSMITTED reflection function refractive index SECOND ORDER THIRD Section Sekera semi-infinite atmosphere shows single scattering slab spherical Stokes parameters TABLE 35 continued THIRD ORDER SUMS tion transmission values van de Hulst VECTOR wavelength ZERO ORDER μο
References to this book
Optical Mapping of Cardiac Excitation and Arrhythmias David Rosenbaum,Jose Jalife No preview available - 2001 |