One approach to the numerical solution of a wave equation on an unbounded domain uses a bounded domain surrounded by an absorbing boundary or layer that absorbs waves propagating outward from the bounded domain. A perfectly matched layer (PML) is an unphysical absorbing layer model for linear wave equations that absorbs, almost perfectly, outgoing waves of all non-tangential angles-of-incidence and of all non-zero frequencies. In a recent work [Computer Methods in Applied Mechanics and Engineering 2003; 192:1337\u851375], the authors presented, inter alia, time-harmonic governing equations of PMLs for anti-plane and for plane-strain motion of (visco-)elastic media. This paper presents (a) corresponding time-domain, displacement-based govern...
Perfectly matched layers (PML) are a well-developed method for simulating wave propagation in unboun...
This paper explores the coupling of the perfectly matched layer technique (PML) with the thin layer ...
This paper presents a framework for implementing a novel Perfectly Matching Layer and Infinite Eleme...
International audienceThis review article revisits and outlines the perfectly matched layer (PML) me...
As an absorbing boundary in infinite domain problems, the perfectly matched layer (PML) is introduce...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
Absorbing boundary conditions are a requisite element of many computational wave prop-agation proble...
A general convolutional version of perfectly matched layer (PML) formulation for second-order wave e...
Many practical applications require the analysis of elastic wave propagation in a homogeneous isotro...
The perfectly matched layer (PML) is a novel technique to simulate the absorption of waves in unboun...
Abstract The multiaxial perfectly matched layer (M-PML) is a stable and effective nonreflecting boun...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
We propose Perfectly Matched Layers (PMLs) for flexural waves in plate structures. The analytical mo...
A method is presented for application of the perfectly matched layer (PML) absorbing boundary condit...
Perfectly matched layers (PML) are a well-developed method for simulating wave propagation in unboun...
This paper explores the coupling of the perfectly matched layer technique (PML) with the thin layer ...
This paper presents a framework for implementing a novel Perfectly Matching Layer and Infinite Eleme...
International audienceThis review article revisits and outlines the perfectly matched layer (PML) me...
As an absorbing boundary in infinite domain problems, the perfectly matched layer (PML) is introduce...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
Absorbing boundary conditions are a requisite element of many computational wave prop-agation proble...
A general convolutional version of perfectly matched layer (PML) formulation for second-order wave e...
Many practical applications require the analysis of elastic wave propagation in a homogeneous isotro...
The perfectly matched layer (PML) is a novel technique to simulate the absorption of waves in unboun...
Abstract The multiaxial perfectly matched layer (M-PML) is a stable and effective nonreflecting boun...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
We propose Perfectly Matched Layers (PMLs) for flexural waves in plate structures. The analytical mo...
A method is presented for application of the perfectly matched layer (PML) absorbing boundary condit...
Perfectly matched layers (PML) are a well-developed method for simulating wave propagation in unboun...
This paper explores the coupling of the perfectly matched layer technique (PML) with the thin layer ...
This paper presents a framework for implementing a novel Perfectly Matching Layer and Infinite Eleme...