Add to ORKGAbstract. In this paper we present a new highly efficient calculation method for the far field amplitude pattern that arises from scattering problems governed by the d-dimensional Helmholtz equation and, by extension, Schrödinger’s equation. The new technique is based upon a reformulation of the classical real-valued Green’s function integral for the far field amplitude to an equivalent integral over a complex domain. It is shown that the scattered wave, which is essential for the calculation of the far field integral, can be computed very efficiently along this complex contour (or manifold, in multiple dimensions). Using the iterative multigrid method as a solver for the discretized damped scattered wave system, the proposed approach resu...
This edited volume offers a state of the art overview of fast and robust solvers for the Helmholtz e...
The present paper describes an algorithm for rapid solution of boundary value problems for the Helmh...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/46171/1/205_2004_Article_BF00285433.pd
We study the convergence of multigrid schemes for the Helmholtz equation, focusing in particular on ...
Abstract. Existing approaches to the solution of the inverse scattering prob-lems in two and three d...
An algebraic multigrid method with two levels is applied to the solution of the Helmholtz equation i...
Let D in R^3 be a bounded simply connected domain with smooth boundary F(D) contained in the three d...
The exterior Helmholtz problem can be efficiently solved by reformulating the differential equation ...
Abstract. This paper is concerned with fast solution of high frequency acoustic scattering problems ...
AbstractWe present a high-order, fast, iterative solver for the direct scattering calculation for th...
The Helmholtz problem is hard to solve in heterogeneous media, in partic-ular, when the wave number ...
This paper develops primarily an analytical solution for sound, electromagnetic or any other wave pr...
Abstract. We analyze in detail two-grid methods for solving the 1D Helmholtz equation discretized by...
Finding fast yet accurate numerical solutions to the Helmholtz equation remains a challenging task. ...
In this thesis we propose methods for preconditioning Krylov subspace methods for solving the integr...
This edited volume offers a state of the art overview of fast and robust solvers for the Helmholtz e...
The present paper describes an algorithm for rapid solution of boundary value problems for the Helmh...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/46171/1/205_2004_Article_BF00285433.pd
We study the convergence of multigrid schemes for the Helmholtz equation, focusing in particular on ...
Abstract. Existing approaches to the solution of the inverse scattering prob-lems in two and three d...
An algebraic multigrid method with two levels is applied to the solution of the Helmholtz equation i...
Let D in R^3 be a bounded simply connected domain with smooth boundary F(D) contained in the three d...
The exterior Helmholtz problem can be efficiently solved by reformulating the differential equation ...
Abstract. This paper is concerned with fast solution of high frequency acoustic scattering problems ...
AbstractWe present a high-order, fast, iterative solver for the direct scattering calculation for th...
The Helmholtz problem is hard to solve in heterogeneous media, in partic-ular, when the wave number ...
This paper develops primarily an analytical solution for sound, electromagnetic or any other wave pr...
Abstract. We analyze in detail two-grid methods for solving the 1D Helmholtz equation discretized by...
Finding fast yet accurate numerical solutions to the Helmholtz equation remains a challenging task. ...
In this thesis we propose methods for preconditioning Krylov subspace methods for solving the integr...
This edited volume offers a state of the art overview of fast and robust solvers for the Helmholtz e...
The present paper describes an algorithm for rapid solution of boundary value problems for the Helmh...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/46171/1/205_2004_Article_BF00285433.pd