The article of record as published by be found at http://dx.doi.org/10.1016/j.jcp.2015.09.048In computations, it is now common to surround artificial boundaries of a computational domain with a perfectly matched layer (PML) of finite thickness in order to prevent artificially reflected waves from contaminating a numerical simulation. Unfortunately, the PML does not give us an indication about appropriate boundary conditions needed to close the edges of the PML, or how those boundary conditions should be enforced in a numerical setting. Terminating the PML with an inappropriate boundary condition or an unstable numerical boundary procedure can lead to exponential growth in the PML which will eventually destroy the accuracy of a numerical sim...
International audienceIn this article we discuss different techniques to solve numerically wave prop...
A method is presented for application of the perfectly matched layer (PML) absorbing boundary condit...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
Abstract. In this paper we address the temporal energy growth associated with numerical approximatio...
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 presence of wave motion is the defining feature in many fields of application,such as electro-ma...
In [25,26], a PML formulation was proposed for the wave equation in its standard second-order form. ...
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...
Absorbing boundary conditions are a requisite element of many computational wave prop-agation proble...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
Collino and Tsogka [1] developed a perfectly matched layer (PML) model based on the elastodynamics e...
The original B´erenger’s perfectly matched layer (PML) was quite effective in simulating wave propag...
One of the methods for the numerical simulation of electromagnetic waves propa-gation in exterior do...
International audienceIn this article we discuss different techniques to solve numerically wave prop...
A method is presented for application of the perfectly matched layer (PML) absorbing boundary condit...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
Abstract. In this paper we address the temporal energy growth associated with numerical approximatio...
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 presence of wave motion is the defining feature in many fields of application,such as electro-ma...
In [25,26], a PML formulation was proposed for the wave equation in its standard second-order form. ...
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...
Absorbing boundary conditions are a requisite element of many computational wave prop-agation proble...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
Collino and Tsogka [1] developed a perfectly matched layer (PML) model based on the elastodynamics e...
The original B´erenger’s perfectly matched layer (PML) was quite effective in simulating wave propag...
One of the methods for the numerical simulation of electromagnetic waves propa-gation in exterior do...
International audienceIn this article we discuss different techniques to solve numerically wave prop...
A method is presented for application of the perfectly matched layer (PML) absorbing boundary condit...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...