This paper presents a parameter-free perfectly matched layer (PML) method for the finite-element-based solution of the Helmholtz equation. We employ one of Bermúdez et al.'s unbounded absorbing functions for the complex coordinate mapping underlying the PML. With this choice, the only free parameter that controls the accuracy of the numerical solution for a fixed numerical cost (characterised by the number of elements in the bulk and the PML regions) is the thickness of the perfectly matched layer, δPML. We show that, for the case of planar waves, the absorbing function performs best for PMLs whose thickness is much smaller than the wavelength. We then perform extensive numerical experiments to explore its performance for non-planar waves, ...
A new construction of an absorbing boundary condition for indefinite Helmholtz problems on unbounde...
The perfectly matched layer (PML) has recently been introduced by Berenger as a material absorbing b...
This paper discusses an iterative method for solving the Helmholtz equation with the perfectly match...
We study the Helmholtz equation with a Sommerfeld radiation condition in an unbounded domain. We pro...
In this paper, we study finite element approximate solutions to the Helmholtz equation in waveguides...
The Perfectly Matched Layer (PML) has become a widespread technique for pre-venting reflections from...
In this paper, we present a detailed theoretical and numerical investigation of the perfectly matche...
The main objective of this thesis is to design a truly exact and optimal perfect absorbing layer (P...
Abstract. A new construction of an absorbing boundary condition for indefinite Helmholtz problems on...
AbstractIn this paper we propose a new finite element realization of the Perfectly Matched Layer met...
In the numerical solution of some boundary value problems by the finite element method (FEM), the un...
We consider approximation of the variable-coefficient Helmholtz equation in the exterior of a Dirich...
Abstract. The aim of this paper is to introduce an “exact ” bounded perfectly matched layer (PML) fo...
AbstractIn this paper, we present an optimal 25-point finite difference scheme for solving the Helmh...
As an absorbing boundary in infinite domain problems, the perfectly matched layer (PML) is introduce...
A new construction of an absorbing boundary condition for indefinite Helmholtz problems on unbounde...
The perfectly matched layer (PML) has recently been introduced by Berenger as a material absorbing b...
This paper discusses an iterative method for solving the Helmholtz equation with the perfectly match...
We study the Helmholtz equation with a Sommerfeld radiation condition in an unbounded domain. We pro...
In this paper, we study finite element approximate solutions to the Helmholtz equation in waveguides...
The Perfectly Matched Layer (PML) has become a widespread technique for pre-venting reflections from...
In this paper, we present a detailed theoretical and numerical investigation of the perfectly matche...
The main objective of this thesis is to design a truly exact and optimal perfect absorbing layer (P...
Abstract. A new construction of an absorbing boundary condition for indefinite Helmholtz problems on...
AbstractIn this paper we propose a new finite element realization of the Perfectly Matched Layer met...
In the numerical solution of some boundary value problems by the finite element method (FEM), the un...
We consider approximation of the variable-coefficient Helmholtz equation in the exterior of a Dirich...
Abstract. The aim of this paper is to introduce an “exact ” bounded perfectly matched layer (PML) fo...
AbstractIn this paper, we present an optimal 25-point finite difference scheme for solving the Helmh...
As an absorbing boundary in infinite domain problems, the perfectly matched layer (PML) is introduce...
A new construction of an absorbing boundary condition for indefinite Helmholtz problems on unbounde...
The perfectly matched layer (PML) has recently been introduced by Berenger as a material absorbing b...
This paper discusses an iterative method for solving the Helmholtz equation with the perfectly match...