论文信息 - Numerical study of scattering by rough surfaces with intermediate and large scale roughness

Numerical study of scattering by rough surfaces with intermediate and large scale roughness

The phase perturbation technique (PPT) and the Lynch variational method (LVM) are compared in the case of scalar waves scattered by one-dimensional Dirichlet-type Gaussian random rough surfaces at normal incidence. The attention is focused on surfaces whose irregularities are comparable to or larger than the wavelength. For this purpose, expressions representing the coherent scattering coefficient and the incoherent scattering cross section within the framework of the LVM are derived with no resort to the high-frequency limit. The results show that the LVM curve lies between the PPT and the Kirchhoff approximation ones and under certain circumstances the PPT and the LVM coincide for all scattering angles. It is concluded from this evidence that a considerable part of the shadowing of the scattered field is due to diffraction from irregularities which cannot be considered flat over the wavelength scale.

Kristinka Ivanova | O. I. Yordanov | M. A. Michalev | K. Ivanova | O. Yordanov

[1] Wong. Scattering by inhomogeneous systems with rough internal surfaces: Porous solids and random-field Ising systems. , 1985, Physical review. B, Condensed matter.

[2] Kristinka Ivanova,et al. Study of the Phase Perturbation Technique for Scattering of Waves by Rough Surfaces at Intermediate and Large Values of the Roughness Parameter , 1990 .

[3] A. Maradudin,et al. Multiple Scattering of Waves from Random Rough Surfaces , 1980 .

[4] Akira Ishimaru,et al. The Phase Perturbation Technique vs. an Exact Numerical Method for Random Rough Surface Scattering , 1989 .

[5] T. López-Rios,et al. Surface Polaritons at Metal Surfaces and Interfaces , 1982 .

[6] D. Jackson,et al. The validity of the perturbation approximation for rough surface scattering using a Gaussian roughness spectrum , 1988 .

[7] H. Raether. CHAPTER 9 – Surface Plasmons and Roughness* , 1982 .

[8] Akira Ishimaru,et al. Investigation of a surface field phase perturbation technique for scattering from rough surfaces , 1985 .

[9] A. Ishimaru,et al. Application of the phase-perturbation technique to randomly rough surfaces , 1985 .

[10] P. J. Lynch. Curvature Corrections to Rough‐Surface Scattering at High Frequencies , 1970 .