A comprehensive theoretical and numerical study oj the influence oj surface roughness oj elastic particles in water on the scattering oj ultrasonic waves has been carried out. For near spherical shape oj the particles and with small rms-roughness heights a perturbation method has been developed. In this method the first-order perturbation contribution predicts the contribution to the incoherently scattered acoustic field due to surjace roughness, and the second-order perturbation contribution predicts the change in the coherent field and will satisfy the requirement oj energy conservation. The second-order perturbation contribution is evaluated using the concept ojform function, while the first-order perturbation to the total scattered acou...
I would like to start out by listing the principal objectives of our present study, and then discuss...
The influence of small- and large-scale heterogeneities on an incident wavefield was investigated in...
Author Posting. © Acoustical Society of America, 1992. This article is posted here by permission of...
The purpose of this thesis is to investigate the influence of roughness on wave scattering from fini...
textInterface roughness can have a significant effect on the scattering of sound energy, and therefo...
In this paper the small slope approximation is applied to acoustic scattering from a randomly rough ...
Directional properties of ultrasonic waves scattered from rough surfaces with applications to electr...
Abstract: The amplitude of sound scattered from submerged elastic objects is dominated by resonance ...
International audienceThe first-order small slope approximation is applied to model the scattering s...
12.00; thesis submitted for the degree of Ph.D. of the University of Bath, 1987Available from Britis...
Elastic waves scattered by random rough interfaces separating two distinct media play an important r...
This paper deals with the acoustic field scattered by elastic bodies in motion. Starting from the Ff...
Since some years our team has worked on the characterization of rough surfaces f~om a study of the a...
Since some years our team has worked on the characterization of rough surfaces f~om a study of the a...
Sound scattering by a target close to a rough interface has been studied in laboratory conditions in...
I would like to start out by listing the principal objectives of our present study, and then discuss...
The influence of small- and large-scale heterogeneities on an incident wavefield was investigated in...
Author Posting. © Acoustical Society of America, 1992. This article is posted here by permission of...
The purpose of this thesis is to investigate the influence of roughness on wave scattering from fini...
textInterface roughness can have a significant effect on the scattering of sound energy, and therefo...
In this paper the small slope approximation is applied to acoustic scattering from a randomly rough ...
Directional properties of ultrasonic waves scattered from rough surfaces with applications to electr...
Abstract: The amplitude of sound scattered from submerged elastic objects is dominated by resonance ...
International audienceThe first-order small slope approximation is applied to model the scattering s...
12.00; thesis submitted for the degree of Ph.D. of the University of Bath, 1987Available from Britis...
Elastic waves scattered by random rough interfaces separating two distinct media play an important r...
This paper deals with the acoustic field scattered by elastic bodies in motion. Starting from the Ff...
Since some years our team has worked on the characterization of rough surfaces f~om a study of the a...
Since some years our team has worked on the characterization of rough surfaces f~om a study of the a...
Sound scattering by a target close to a rough interface has been studied in laboratory conditions in...
I would like to start out by listing the principal objectives of our present study, and then discuss...
The influence of small- and large-scale heterogeneities on an incident wavefield was investigated in...
Author Posting. © Acoustical Society of America, 1992. This article is posted here by permission of...