D. de Wolf scite author profile

The conventional wave-integral equation in electromagnetic scattering, consisting of a sum of directly received vacunm field plus a scattered field that sums weighted vacuum spherical waves from each scatterer, is replaced by one in which renormalized fields containing part of the multiply scattered energy replace the vacuum fields. A first-order approximation in the renormalized equation is applied to bistatic (large-angle) scattering from weak random fluctuations of the permittivity in a distant volume, and to a sparse monodisperse distribution of isotropic particles to yield scattering cross sections with extended validity for the direct polarization. A similar correction is introduced for the cross polarization in the case of backscatter. Differences with other calculations are noted.

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Photo-carrier generation as the origin of Fowler-Nordheim-induced substrate hole current in thin oxides

Rasras

Wolf

Groeseneken

et al. 2001

IEEE Trans. Electron Devices

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Discussion of radiative-transfer methods applied to electromagnetic reflection from turbulent plasma

Wolf

1972

IEEE Trans. Antennas Propagat.

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AmpÈre's Law for a Linear Uniform Cylindrical Current

Wolf

2007

IEEE Trans. Educ.

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D. de Wolf

Electromagnetic reflection from an extended turbulent medium: Cumulative forward-scatter single-backscatter approximation

Renormalization of EM fields in application to large-angle scattering from randomly continuous media and sparse particle distributions

Photo-carrier generation as the origin of Fowler-Nordheim-induced substrate hole current in thin oxides

Discussion of radiative-transfer methods applied to electromagnetic reflection from turbulent plasma

AmpÈre's Law for a Linear Uniform Cylindrical Current

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