Absorption and Scattering of Light by Small ParticlesAbsorption and Scattering of Light by Small Particles Treating absorption and scattering in equal measure, this self-contained, interdisciplinary study examines and illustrates how small particles absorb and scatter light. The authors emphasize that any discussion of the optical behavior of small particles is inseparable from a full understanding of the optical behavior of the parent material-bulk matter. To divorce one concept from the other is to render any study on scattering theory seriously incomplete. Special features and important topics covered in this book include: ∗ Classical theories of optical properties based on idealized models ∗ Measurements for three representative materials: magnesium oxide, aluminum, and water ∗ An extensive discussion of electromagnetic theory ∗ Numerous exact and approximate solutions to various scattering problems ∗ Examples and applications from physics, astrophysics, atmospheric physics, and biophysics ∗ Some 500 references emphasizing work done since Kerker′s 1969 work on scattering theory ∗ Computer programs for calculating scattering by spheres, coated spheres, and infinite cylinders |
Contents
Introduction | 3 |
1 | 9 |
PlaneWave Propagation in Unbounded Media | 25 |
Copyright | |
25 other sections not shown
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Absorption and Scattering of Light by Small Particles Craig F. Bohren,Donald R. Huffman Limited preview - 2008 |
Common terms and phrases
absorbing absorption bands absorption spectrum aluminum amplitude scattering matrix anisotropic approximation atmospheric aerosols axis backscattering beam Bessel functions Bohren bulk calculations Chapter circular polarization components computed cross section crystals curves cylinder detector dielectric function dipole discussed distribution droplets effects electric field electromagnetic electron ellipsoid energy equations example extinction Figure frequency Fröhlich geometrical homogeneous incident light infrared interstellar dust irradiance light scattered linear polarization measurements medium metallic microwave Mie theory noctilucent clouds nonspherical particles obtained optical constants optical properties oscillator parameters peak phase photon Phys plasma Qext quartz radius randomly oriented Rayleigh reflectance refractive index region ripple structure S₁ samples scattered light scattering angles scattering matrix scattering matrix elements scattering plane shape shown in Fig small particles solid spectra spectrum sphere spheroids Stokes parameters surface mode symmetry theory tion transmission ultraviolet vector vibrational visible wave wavelength