International audienceAn efficient method to compute the scattering of a guided wave by a localized defect, in an elastic waveguide of infinite extent and bounded cross section, is considered. It relies on the use of perfectly matched layers (PML) to reduce the problem to a bounded portion of the guide, allowing for a classical finite element discretization. The difficulty here comes from the existence of backward propagating modes, which are not correctly handled by the PML. We propose a simple strategy, based on finite-dimensional linear algebra arguments and using the knowledge of the modes, to recover a correct approximation to the solution with a low additional cost compared to the standard PML approach. Numerical experiments are prese...
This paper is dedicated to an acoustic scattering problem in a two-dimensional partially open wavegu...
The article of record as published by be found at http://dx.doi.org/10.1016/j.jcp.2015.09.048In comp...
Guided wave modes can provide precise physical analyses of scattering phenomena. When the structure ...
An efficient method to compute the scattering of a guided wave by a localized defect, in an elastic ...
International audienceElastic guided waves are of interest for inspecting structures due to their ab...
Among the numerous techniques of non destructive evaluation, elastic guided waves are of particular ...
International audienceWe consider the time-harmonic problem of the diffraction of an incident propag...
International audienceIn this article we discuss different techniques to solve numerically wave prop...
the use of perfectly matched layers in the presence of long or backward propagating guided elastic w...
The perfectly matched layer (PML) is a novel technique to simulate the absorption of waves in unboun...
AbstractIn this paper we propose a new finite element realization of the Perfectly Matched Layer met...
This paper studies the perfectly-matched-layer (PML) method for wave scattering in a half space of h...
Elastic guided waves are of interest for inspecting structures due to their ability to propagate ove...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
In this paper, we study finite element approximate solutions to the Helmholtz equation in waveguides...
This paper is dedicated to an acoustic scattering problem in a two-dimensional partially open wavegu...
The article of record as published by be found at http://dx.doi.org/10.1016/j.jcp.2015.09.048In comp...
Guided wave modes can provide precise physical analyses of scattering phenomena. When the structure ...
An efficient method to compute the scattering of a guided wave by a localized defect, in an elastic ...
International audienceElastic guided waves are of interest for inspecting structures due to their ab...
Among the numerous techniques of non destructive evaluation, elastic guided waves are of particular ...
International audienceWe consider the time-harmonic problem of the diffraction of an incident propag...
International audienceIn this article we discuss different techniques to solve numerically wave prop...
the use of perfectly matched layers in the presence of long or backward propagating guided elastic w...
The perfectly matched layer (PML) is a novel technique to simulate the absorption of waves in unboun...
AbstractIn this paper we propose a new finite element realization of the Perfectly Matched Layer met...
This paper studies the perfectly-matched-layer (PML) method for wave scattering in a half space of h...
Elastic guided waves are of interest for inspecting structures due to their ability to propagate ove...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
In this paper, we study finite element approximate solutions to the Helmholtz equation in waveguides...
This paper is dedicated to an acoustic scattering problem in a two-dimensional partially open wavegu...
The article of record as published by be found at http://dx.doi.org/10.1016/j.jcp.2015.09.048In comp...
Guided wave modes can provide precise physical analyses of scattering phenomena. When the structure ...