Physics – Condensed Matter – Disordered Systems and Neural Networks
Scientific paper
1999-08-06
Physics
Condensed Matter
Disordered Systems and Neural Networks
LaTeX, 14 pages including 5 figures. To appear SPIE publication
Scientific paper
We calculate the short-range contributions $C^{(1)}$ and $C^{(10)}$ to the angular intensity correlation function for the scattering of s-polarized light from a one-dimensional random interface between two dielectric media. The calculations are carried out on the basis of a new approach that separates out explicitly the contributions $C^{(1)}$ a nd $C^{(10)}$ to the angular intensity correlation function. The contribution $C^{(1)}$ displays peaks associated with the memory effect and the reciprocal memory effect. In the case of a dielectric-dielectric interface, which does not support surface electromagnetic surface waves, these peaks arise from the co herent interference of multiply-scattered lateral waves supported by the in terface. The contribution $C^{(10)}$ is a structureless function of its arguments.
Leskova Tamara A.
Maradudin Alexei A.
Simonsen Ingve
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