Add to ORKGAn approximate scattering theory that utilizes the exact solutions for spherical defects is being developed. A defect of arbitrary shape can be represented by a sphere S and a remainder volume δv. By treating δv as a perturbation, one obtains an approximate solution that contains non-trivial frequency dependence and phase information. The approach is expected to be useful for studying defects with small but significant deviations (such as sharp edges) from spherical shape
Earlier in the day you heard several talks on the analytical techniques to treat defect scattering. ...
The aim of this work is to present theoretical tools to study wave propagation in elastic waveguides...
Quantitative ultrasonic imaging requires algorithmic data processing to yield the object function of...
An approximate scattering theory that utilizes the exact solutions for spherical defects is being de...
An approximate theory for scattering of elastic wave by general shaped defects has been developed. A...
Scattering of elastic waves by complex defects is investigated. In previous work the Distorted Wave ...
The time domain Born approximation for ultrasonic scattering from volume flaws in an elastic medium ...
The development of several approximations appears to permit accurate and practical calculations of t...
The first Born approximation provides a useful means to study scattering of ultrasound by various de...
My objective is to help develop a quantitative working model for a typical nondestructive testing sy...
One of the most important effects of complex part geometry is that the available entrance and exit a...
Empirical solutions via the adaptive learning network methodology have been obtained to measure char...
Before I begin I would like to emphasize that the work reported here is the result of a team effort,...
Visscher\u27s method of optimal truncation for solving elastic wave scattering problems has been app...
Earlier in the day you heard several talks on the analytical techniques to treat defect scattering. ...
Earlier in the day you heard several talks on the analytical techniques to treat defect scattering. ...
The aim of this work is to present theoretical tools to study wave propagation in elastic waveguides...
Quantitative ultrasonic imaging requires algorithmic data processing to yield the object function of...
An approximate scattering theory that utilizes the exact solutions for spherical defects is being de...
An approximate theory for scattering of elastic wave by general shaped defects has been developed. A...
Scattering of elastic waves by complex defects is investigated. In previous work the Distorted Wave ...
The time domain Born approximation for ultrasonic scattering from volume flaws in an elastic medium ...
The development of several approximations appears to permit accurate and practical calculations of t...
The first Born approximation provides a useful means to study scattering of ultrasound by various de...
My objective is to help develop a quantitative working model for a typical nondestructive testing sy...
One of the most important effects of complex part geometry is that the available entrance and exit a...
Empirical solutions via the adaptive learning network methodology have been obtained to measure char...
Before I begin I would like to emphasize that the work reported here is the result of a team effort,...
Visscher\u27s method of optimal truncation for solving elastic wave scattering problems has been app...
Earlier in the day you heard several talks on the analytical techniques to treat defect scattering. ...
Earlier in the day you heard several talks on the analytical techniques to treat defect scattering. ...
The aim of this work is to present theoretical tools to study wave propagation in elastic waveguides...
Quantitative ultrasonic imaging requires algorithmic data processing to yield the object function of...