We present stability results for a numerical scheme for computing the current induced on the surface of a thin wire by an incident time-dependent electromagnetic field, using the exact kernel formulation. The results show that the algorithm is stable for arbitrarily small values of the mesh size
A brief review is given of a systematic, product-formula based approach to construct unconditionally...
A new numerical method is proposed to analyze transient induced effects in thin wires excited by ext...
Abstract: In this paper, we present a new formulation using the time-domain electric field integral ...
We present stability results for a numerical scheme for computing the current induced on the surface...
Abstract We present two new stable schemes for computing the current induced on the surface of a thi...
This paper contains a systematic study of numerical approximations for solving the exact kernel form...
We derive and analyse collocation approximations of retarded potential integral equations (RPIEs) ar...
In this paper we analyze the numerical aspects of the various methodso that have been used to analyz...
Numerical techniques based on a time-domain recursive solution of the electric field integral equati...
This paper presents a procedure to extend the methods of moments in time domain for the transient an...
We derive a separation of variables solution for time-domain electromagnetic scattering from a perfe...
Abstract: This article presents a new approach for the analysis of electromagnetic scattering from a...
We show that the Pocklington integral equation for time-domain scattering from thin-wire antennas is...
A subcell model for thin wires in the finite-difference time-domain (FDTD) method using modified tel...
AbstractIn the context of simulation of electromagnetic propagation, the thin wire formalism of Holl...
A brief review is given of a systematic, product-formula based approach to construct unconditionally...
A new numerical method is proposed to analyze transient induced effects in thin wires excited by ext...
Abstract: In this paper, we present a new formulation using the time-domain electric field integral ...
We present stability results for a numerical scheme for computing the current induced on the surface...
Abstract We present two new stable schemes for computing the current induced on the surface of a thi...
This paper contains a systematic study of numerical approximations for solving the exact kernel form...
We derive and analyse collocation approximations of retarded potential integral equations (RPIEs) ar...
In this paper we analyze the numerical aspects of the various methodso that have been used to analyz...
Numerical techniques based on a time-domain recursive solution of the electric field integral equati...
This paper presents a procedure to extend the methods of moments in time domain for the transient an...
We derive a separation of variables solution for time-domain electromagnetic scattering from a perfe...
Abstract: This article presents a new approach for the analysis of electromagnetic scattering from a...
We show that the Pocklington integral equation for time-domain scattering from thin-wire antennas is...
A subcell model for thin wires in the finite-difference time-domain (FDTD) method using modified tel...
AbstractIn the context of simulation of electromagnetic propagation, the thin wire formalism of Holl...
A brief review is given of a systematic, product-formula based approach to construct unconditionally...
A new numerical method is proposed to analyze transient induced effects in thin wires excited by ext...
Abstract: In this paper, we present a new formulation using the time-domain electric field integral ...
DOI
Add to ORKG