Radiative transfer and optical properties of atmosphere and underlying surface
Author(s)
Bibliographic Information
Radiative transfer and optical properties of atmosphere and underlying surface
(Springer-Praxis books in environmental sciences, . Light scattering reviews / Alexander A. Kokhanovsky,
Springer, c2013
- hbk.
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Note
Includes bibliographical references and index
"Published in association with Praxis Publishing, Chichester, UK"
Description and Table of Contents
Description
Light Scattering Reviews (vol.7) is aimed at the description of modern advances in radiative transfer and light scattering. The following topics will be considered: the general - purpose discrete - ordinate algorithm DISORT for radiative transfer, fast radiative transfer techniques, use of polarization in remote sensing, Markovian approach for radiative transfer in cloudy atmospheres, coherent and incoherent backscattering by turbid media and surfaces,advances in radiative transfer methods as used for luminiscence tomography, optical properties of aerosol, ice crystals, snow, and oceanic water. This volume will be a valuable addition to already published volumes 1-6 of Light Scattering Reviews.
Table of Contents
Chapter 1. Radiative transfer and remote sensing:
1.1. The general-purpose discrete-ordinate algorithm DISORT for radiative transfer.- 1.2. Fast radiative transfer techniques.- 1.3. Genesis and evolution of the use of polarization in remote sensing of atmospheres and oceans.- 1.4. Markovian approach and its applications in a cloudy atmosphere.- 1.5. Multiple scattering by discrete random media: coherent and incoherent backscattering.- 1.6. Multispectral optical luminescence tomography with the simplified spherical harmonics equations
Chapter 2. Atmospheric optics:
2.1. The optical properties of natural and anthropogenic aerosols.- 2.2. Light scattering by atmospheric ice crystals
Chapter 3. Ocean Optics:
3.1. Light scattering by pure seawater 3.2. Measuring optical backscattering in water
Chapter 4. Scattering optics and remote sensing of snow
4. 1. Complexity of the scattering optics of natural snow cover.- 4.2. Reflection properties of snow surface
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