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Optics of Cosmic Dust
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Optics of Cosmic Dust in Ottawa, ON
By None
Current price: $128.95


By None
Optics of Cosmic Dust in Ottawa, ON
Current price: $128.95
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Size: Hardcover
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Dedication. Preface. Observational Information. In the Kitchen of Dust Modeling; N.V. Voshchinnikov. Infrared Spectroscopy of Cosmic Dust; G.J. Flynn, et al. Experimental Light Scattering Matrices Between to Cosmic Dust; O. Muñoz, et al. Light Scattering Models. Light Scattering Tools for Cosmic Dust Modeling; V.B. Il'In, et al. Fractal Aggregates in Space; G. Wurm, M. Schnaiter. Scattering of Light by a Sphere with an Arbitrary Radially Variable Refractive Index; A.Y. Perelman, et al. Calculation of Optical Fields Inside Spheroidal Particles of Cosmic Dust: Comparison of Different Methods: GMT, T-Matrix, SVM; V.A. Babenko, P.K. Petrov. Thermal Effects of Radiation on Dust Particles; L.G. Astafyeva. Characterization Methodologies. Size Distributions of Particles Obtained by Inversion of Spectral Extinction and Scattering Measurements; H. Horvath, et al. Simplified Solution of the Inverse Problem for Instantaneous Cometary Dust Size Distribution; M. Kocifaj, et al. Monte Carlo Modeling of Cometary Atmospheres Including Polarization; F. Moreno, et al. Atmospheric Extinction Derived from Cometary Observations; J. Svoren, et al. Backscatter Polarization. Photometric and Polarimetric Opposition Phenomena Exhibited by Solar System Bodies; V. Rosenbush, et al. Experimental Modeling of Opposition Effect and Negative Polarization of Regolith-Like Surfaces; Y.G. Shkuratov, A.V. Ovcharenko. Exact Results of the Vector Theory of Coherent Backscattering from Discrete Random Media: An Overview; M. Mishchenko, et al. Numerical Techniques for Backscattering by Random Media; K. Muinonen, et al. Dynamics. The Effect of Radiation on the Motion of Meteoroids; I.P. Williams. Covariant Equation of Motion for a Particle in anElectromagnetic Field; J. Klačka. Participants. Index.
Dedication. Preface. Observational Information. In the Kitchen of Dust Modeling; N.V. Voshchinnikov. Infrared Spectroscopy of Cosmic Dust; G.J. Flynn, et al. Experimental Light Scattering Matrices Between to Cosmic Dust; O. Muñoz, et al. Light Scattering Models. Light Scattering Tools for Cosmic Dust Modeling; V.B. Il'In, et al. Fractal Aggregates in Space; G. Wurm, M. Schnaiter. Scattering of Light by a Sphere with an Arbitrary Radially Variable Refractive Index; A.Y. Perelman, et al. Calculation of Optical Fields Inside Spheroidal Particles of Cosmic Dust: Comparison of Different Methods: GMT, T-Matrix, SVM; V.A. Babenko, P.K. Petrov. Thermal Effects of Radiation on Dust Particles; L.G. Astafyeva. Characterization Methodologies. Size Distributions of Particles Obtained by Inversion of Spectral Extinction and Scattering Measurements; H. Horvath, et al. Simplified Solution of the Inverse Problem for Instantaneous Cometary Dust Size Distribution; M. Kocifaj, et al. Monte Carlo Modeling of Cometary Atmospheres Including Polarization; F. Moreno, et al. Atmospheric Extinction Derived from Cometary Observations; J. Svoren, et al. Backscatter Polarization. Photometric and Polarimetric Opposition Phenomena Exhibited by Solar System Bodies; V. Rosenbush, et al. Experimental Modeling of Opposition Effect and Negative Polarization of Regolith-Like Surfaces; Y.G. Shkuratov, A.V. Ovcharenko. Exact Results of the Vector Theory of Coherent Backscattering from Discrete Random Media: An Overview; M. Mishchenko, et al. Numerical Techniques for Backscattering by Random Media; K. Muinonen, et al. Dynamics. The Effect of Radiation on the Motion of Meteoroids; I.P. Williams. Covariant Equation of Motion for a Particle in anElectromagnetic Field; J. Klačka. Participants. Index.















