TY - EJOU
AU - Jose, P.
AU - R.Kanapady,
AU - K.K.Tamma,
TI - Transform Domain Based Hybrid Element Formulations for Transient Electromagnetic Field Computations
T2 - Computer Modeling in Engineering \& Sciences
PY - 2004
VL - 5
IS - 5
SN - 1526-1506
AB - In this article, a novel hybrid finite element and Laplace transform formulation is presented for the computations of transient electromagnetic fields. The formulation is first based on application of Laplace transform technique for the pertinent differential equations, namely the Maxwell's equation in the non-integral form with subsequently, employing the Galerkin finite element formulations on the transformed equations to maintain the modeling versatility of complex geometries and numerical features for computational analysis. In addition, in conjunction with the above, proper scaling of the field quantities is applied to improve the condition of the effective global stiffness matrix. The problem is first solved in the transform domain itself, and then an inverse Laplace transformation on the resultant field variables is employed to yield the time-domain solution at desired times of interest. Pertinent details of the approach, computational methodology adopted, convergence studies and accuracy of results are described in detail. Numerical test cases are compared with exact analytic solutions to verify the method. In addition, the practical applicability of the method for scattering and radar cross section prediction for two-dimensional problems is presented for illustration.
KW - Computational electro magnetics (CEM)
KW - Time/frequency domain CEM
KW - Maxwell's equation
KW - Laplace transform
KW - Radar Cross Section (RCS)
DO - 10.3970/cmes.2004.005.409