Andere Kunden interessierten sich auch für
![Electromagnetic diffraction by random rough surfaces]( "Electromagnetic diffraction by random rough surfaces")
Electromagnetic diffraction by random rough surfaces44,99 €![Parameter Estimation of Nonlinear Random Medium by Scattered Electromagnetic Fields]( "Parameter Estimation of Nonlinear Random Medium by Scattered Electromagnetic Fields")
Parameter Estimation of Nonlinear Random Medium by Scattered Electromagnetic Fields103,99 €![Wound Rotor Induction Generator Scalar Modeling and Control]( "Wound Rotor Induction Generator Scalar Modeling and Control")
Wound Rotor Induction Generator Scalar Modeling and Control46,99 €![Solid-State Random Lasers]( "Solid-State Random Lasers")
Solid-State Random Lasers79,99 €![Modified photonic processes in dielectric-plasmonic random media]( "Modified photonic processes in dielectric-plasmonic random media")
Modified photonic processes in dielectric-plasmonic random media26,99 €![Weak-Coupling Theory of Topological Superconductivity]( "Weak-Coupling Theory of Topological Superconductivity")
Weak-Coupling Theory of Topological Superconductivity74,99 €![Transient Electromagnetic Fields]( "Transient Electromagnetic Fields")
Transient Electromagnetic Fields39,99 €
This book encompasses several studies relating to the theory of weak potential scattering of scalar and electromagnetic random, wide-sense statistically stationary fields from various types of deterministic or random linear media. The proposed theory is largely based on the first Born approximation for potential scattering and on the angular spectrum representation of fields. The main focus of the scalar counterpart of the theory is made on calculation of the second-order statistics of scattered light fields in cases when the scattering medium consists of several types of discrete particles with deterministic or random potentials. The second part of the dissertation includes the theoretical procedure developed for predicting the second-order statistics of the electromagnetic random fields, such as polarization and linear momentum, scattered from static media. The analysis should help shed some light on the optical community and should be especially useful to scientists and experts in Optical Scattering fields.