Polarimetric remote sensing of Solar System objects

М. I. Mishchenko, V. К. Rosenbush, N. N. Kiselev, D. F. Lupishko, V. P. Tishkovcts, V. G. Kaydash,
I. N. Belskaya, Y. S. Efimov, N. M. Shakhovskoy
Publication Language: 
PH "Akademperiodyka"
Place Published: 
This book outlines the basic physical principles and practical methods of polarimetric remote sensing of Solar System objects and summarizes numerous advanced applications of polarimetry in geophysics and planetary astrophysics. In the first chapter we present a com­plete and rigorous theory of electromagnetic scattering by disperse media directly based on the Maxwell equations and describe advanced physically based modeling tools. This is fol­lowed, in Chapter 2, by a theoretical analysis of polarimetry as a remote-sensing tool and an outline of basic principles of polarimetric measurements and their practical implementa­tions. In Chapters 3 and 4, we describe the results of extensive ground-based, aircraft, and spacecraft observations of numerous Solar System objects (the Earth and other planets, planetary satellites, Saturn’s rings, asteroids, trans-Neptunian objects, and comets). Theo­retical analyses of these data are used to retrieve optical and physical characteristics of planetary surfaces and atmospheres as well as to identify a number of new phenomena and effects.
This monograph is intended for science professionals, educators, and graduate students specializing in remote sensing, astrophysics, atmospheric physics, optics of disperse and dis­ordered media, and optical particle characterization