Lightscatteringisusedinmanyapplications,rangingfromopticalparticlesizing of powders to interstellar dust studies. At the moment there is no a specialized journal aimed at studies of exclusively light scattering problems. Instead, d- ferent aspects of the problem and also di?erent applications are considered in a varietyof specializedjournalscoveringseveralscienti?cdisciplinessuchasch- istry, physics, biology, medicine, astrophysics, and atmospheric science, to name afew. The Light Scattering Reviews (LSR) series started in 2006 with the aim of facilitating interaction between di?erent groups of scientists working in diverse scienti?c areas but using the same technique, namely light scattering, for so- tion of speci?c scienti?c tasks. This second volume of LSR is devoted mostly to applications of light scattering in atmospheric research. The book consists of eight contributions prepared by internationally recognized authorities in cor- spondent research ?elds. The ?rst paper prepared by Howard Barker deals with the recent devel- ments in solar radiative transfer in the terrestrial atmosphere and global climate modelling. In particular, methods to compute radiative transfer characteristics needed for numerical global climate models are discussed in a great depth. Their de?cienciesareaddressedaswell.Theproblemof3Dradiativetransferincloudy atmospheres, a hot topic in modern climate modelling, is also considered.

Summarizes recent developments in the field of light scattering media optics and radiative transfer

Autorentext

I graduated from the Physical Department of the Belarusian State University in Minsk, Belarus (1983). Since then I have worked for the last 22 years in the Laboratory of light scattering media optics at the Institute of Physics (Minsk, Belarus). At the moment I am working with the SCIAMACHY algorithm development team at the Institute of Environmental Physics in Bremen (Germany). The main task is the development of new cloud retrieval algorithms for water and ice clouds as seen by the spectrometer SCIAMACHY (in space from 2002). Main results are obtained in the field of geometrical optics, asymptotic radiative transfer theory and trace gases/aerosol/cloud properties retrievals using passive remote sensing techniques. I have written three books: Light Scattering Media Optics (1999, 2001, 2004), Polarization Optics of Random Media (2003), and

Inhalt
Remote Sensing and Radiative Transfer.- Solar radiative transfer and global climate modelling.- On the remote sensing and radiative properties of cirrus.- Retrieval of cloud optical thickness and effective radius using multispectral remote sensing and accounting for 3D effects.- Raman lidar remote sensing of geophysical media.- Inverse Problems.- Linearization of vector radiative transfer by means of the forward-adjoint perturbation theory and its use in atmospheric remote sensing.- Derivatives of the radiation field and their application to the solution of inverse problems.- Numerical Techniques.- Studies of light scattering by complex particles using the null-field method with discrete sources.- Radiative transfer in horizontally and vertically inhomogeneous turbid media.