A theoretical and numerical study of Berenger's Perfectly Matched Layer (PML) concept for mesh truncation in time and frequency domains / 1: |
Integral formulation of the measured equation of invariance: a sparse matrix boundary element method / 2: |
A compact fourth-order finite volume time-domain/frequency domain method for electromagnetic scattering / 3: |
RCS computations using a parabolic equation method / 4: |
New fictitious domain approach for numerical solution of the 3-D electromagnetic scattering problem using Cartesian meshes / 5: |
Analysis of 3-D scattering problems using finite elements and exact boundary conditions / 6: |
A 3-D symmetric vector Engquist-Majda A.B.C. coupled with H(Curl) mixed elements / 7: |
Equivalent boundary conditions in electromagnetism / 8: |
Implementation of Engquist-Majda and Higdon absorbing boundary conditions in a finite element time domain electromagnetic code / 9: |
Parallel solver for 3-D Maxwell integral equations on axisymmetrical geometry / 10: |
Parallel computation of RCS prediction using time domain integral equations / 11: |
Eigenvalue and resonance frequencies in electromagnetic scattering / 12: |
An integral method to compute guided modes optical couplers / 13: |
Convection-diffusion in MHD: comparison of primitive variable and vector potential solution of the magnetic induction equation / 14: |
The electric field integral equation: theory and algorithms / 15: |
Numerically efficient solution of dense linear system of equations arising in electromagnetic scattering problems / 16: |
AS-Descartes: a ray-tracing code, including diffractions capabilities for the RCS calculation of complex targets / 17: |
A comparison of Lorentz and Coulomb gauges in the solution of Maxwell's equations / 18: |
A finite element procedure for electromagnetic scattering simulations / 19: |
Parallelization of a 3-D electromagnetic scattering code / 20: |
Simulating electromagnetic phenomena on an Intel Paragon XP/S system / 21: |
A theoretical and numerical study of Berenger's Perfectly Matched Layer (PML) concept for mesh truncation in time and frequency domains / 1: |
Integral formulation of the measured equation of invariance: a sparse matrix boundary element method / 2: |
A compact fourth-order finite volume time-domain/frequency domain method for electromagnetic scattering / 3: |
RCS computations using a parabolic equation method / 4: |
New fictitious domain approach for numerical solution of the 3-D electromagnetic scattering problem using Cartesian meshes / 5: |
Analysis of 3-D scattering problems using finite elements and exact boundary conditions / 6: |