The perfectly matched layer (PML) technique is extended for a cell-centered finite-volume time-domain (FVTD) method. A step-by-step procedure for the performance characterization of the FVTD PML is presented for both structured and unstructured finite-volume meshes. The FVTD PML is compared with the standard first-order Silver–Müller absorbing boundary condition (SM ABC) for practical applications. It is found that the FVTD PML for an unstructured grid achieves a reflection coefficient lower than 40 dB for incident angles up to 45 and outperforms the SM ABC by 15–20 dB.Krishnaswamy Sankaran, Christophe Fumeaux and Rüdiger Vahldiec
The attractive features of the Finite-Volume Time-Domain (FVTD) method for the solution of Maxwell’s...
Berenger's perfectly matched layers (PML) have been found to be very efficient as a material absorbi...
This letter describes a cell-centered finite-volume time-domain method for solving electromagnetic p...
Abstract—The perfectly matched layer (PML) technique is extended for a cell-centered finite-volume t...
Different implementations of planar perfectly matched absorbers are studied under the unified framew...
A novel finite-volume time-domain (FVTD) model for the Maxwellian absorber is presented to aid numer...
Abstract – Different implementations of planar per-fectly matched absorbers are studied under the un...
© Copyright 2006 IEEE – All Rights ReservedComputational domain truncations using pure and hybrid te...
We provide a performance analysis for the conformal perfectly matched layer (PML) applied to the mix...
The electromagnetic modeling of distributed or other highly complex systems requires reliable and st...
Time-domain models of split and unsplit finite-volume absorbers (FiVA) used as perfectly matched lay...
The application of the Finite Difference Time Domain (FDTD) method to open region radiation problems...
Abstract: Perfectly matched layer (PML) absorbing boundary condition (ABC) is an important technique...
International audienceThis paper investigates the absorbing boundary conditions for the frequency do...
Three absorbing layers are investigated using standard rectilinear finite-difference schemes. The pe...
The attractive features of the Finite-Volume Time-Domain (FVTD) method for the solution of Maxwell’s...
Berenger's perfectly matched layers (PML) have been found to be very efficient as a material absorbi...
This letter describes a cell-centered finite-volume time-domain method for solving electromagnetic p...
Abstract—The perfectly matched layer (PML) technique is extended for a cell-centered finite-volume t...
Different implementations of planar perfectly matched absorbers are studied under the unified framew...
A novel finite-volume time-domain (FVTD) model for the Maxwellian absorber is presented to aid numer...
Abstract – Different implementations of planar per-fectly matched absorbers are studied under the un...
© Copyright 2006 IEEE – All Rights ReservedComputational domain truncations using pure and hybrid te...
We provide a performance analysis for the conformal perfectly matched layer (PML) applied to the mix...
The electromagnetic modeling of distributed or other highly complex systems requires reliable and st...
Time-domain models of split and unsplit finite-volume absorbers (FiVA) used as perfectly matched lay...
The application of the Finite Difference Time Domain (FDTD) method to open region radiation problems...
Abstract: Perfectly matched layer (PML) absorbing boundary condition (ABC) is an important technique...
International audienceThis paper investigates the absorbing boundary conditions for the frequency do...
Three absorbing layers are investigated using standard rectilinear finite-difference schemes. The pe...
The attractive features of the Finite-Volume Time-Domain (FVTD) method for the solution of Maxwell’s...
Berenger's perfectly matched layers (PML) have been found to be very efficient as a material absorbi...
This letter describes a cell-centered finite-volume time-domain method for solving electromagnetic p...