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eBook Electromagnetic Scattering from Random Media (International Series of Monographs on Physics) ePub

eBook Electromagnetic Scattering from Random Media (International Series of Monographs on Physics) ePub

by Timothy R. Field

  • ISBN: 0198570775
  • Category: Mathematics
  • Subcategory: Math Science
  • Author: Timothy R. Field
  • Language: English
  • Publisher: Oxford University Press; 1 edition (February 28, 2009)
  • Pages: 192
  • ePub book: 1412 kb
  • Fb2 book: 1645 kb
  • Other: lit docx mobi doc
  • Rating: 4.5
  • Votes: 995

Description

Dr Timothy R. Field Associate Professor McMaster University Ontario, Canada Timothy Field studied undergraduate mathematics at. .Series: International Series of Monographs on Physics (Book 144). Hardcover: 192 pages.

Dr Timothy R. Field Associate Professor McMaster University Ontario, Canada Timothy Field studied undergraduate mathematics at King's College, Cambridge University, and went on to receive a doctorate in mathematics from New College and the Mathematical Institute, Oxford University in 1997, where he studied mathematical physics under Sir Roger Penrose.

The book develops the dynamical theory of scattering from random media from first principles. Its key findings are to characterize the time evolution of the scattered field in terms of stochastic differential equations, and to illustrate this framework in simulation and experimental data analysis. An emphasis is placed on the statistical character of the instantaneous fluctuations, as opposed to ensemble average properties.

Автор: Field, Timothy R. Название: Electromagnetic Scattering from Random Media Издательство: Oxford .

The book develops the dynamical theory of scattering from random media from . International Series of Monographs on Physics. Unique development in the field. Self contained, suitable for mathematicians, physicists and engineers.

An algorithm is proposed for numerical analysis of electromagnetic field penetration through apertures in a perfectly conducting plane located on an interface between media with different permittivities

Akash Anand1, Awanish Kumar Tiwari1,∗, Ambuj Pandey1. 1Indian Institute of Technology Kanpur. An algorithm is proposed for numerical analysis of electromagnetic field penetration through apertures in a perfectly conducting plane located on an interface between media with different permittivities. It is assumed that the apertures are electrically small and may have arbitrary shapes. The algorithm involves numerical solution of integral equations for magnetic current density on the.

Codes for electromagnetic scattering by spheres - this article list codes for electromagnetic scattering by a homogeneous sphere, layered sphere, and cluster of spheres

Codes for electromagnetic scattering by spheres - this article list codes for electromagnetic scattering by a homogeneous sphere, layered sphere, and cluster of spheres. Majority of existing codes for calculation of electromagnetic scattering by a single sphere is based on Mie theory which is an analytical solution of Maxwell's equations in terms of infinite series

;The book develops the dynamical theory of scattering from random media from first principles. International Series of Monographs on Physics Ser. Subjects: Stochastic processes.

;The book develops the dynamical theory of scattering from random media from first principles. Its key findings are to characterize the time evolution of the scattered field in terms of stochastic differential equations, and to illustrate this framework. Mathematical physics. Electromagnetic waves Scattering.

The selection first offers information on the occurrence of sporadic E and reflection mechanisms for sporadic E, as well as geographic occurrence and temporal variations of sporadic E and thin and scattering models. The text then examines the final remarks of the 1957 AGARD conference of sporadic-E ionization and study of radio wave scattering from sporadic E near the magnetic equator

The book develops the dynamical theory of scattering from random media from first principles. Its key findings are to characterize the time evolution of the scattered field in terms of stochastic differential equations, and to illustrate this framework in simulation and experimental data analysis. The physical models contain all correlation information and higher order statistics, which enables radar and laser scattering experiments to be interpreted. An emphasis is placed on the statistical character of the instantaneous fluctuations, as opposed to ensemble average properties. This leads to various means for detection, which have important consequences in radar signal processing and statistical optics. The book is also significant because it illustrates how ideas in mathematical finance can be applied to physics problems in which non-Gaussian noise processes play an essential role. This pioneering book represents a significant advance in this field, and should prove valuable to leading edge researchers and practitioners at the postgraduate level and above.