An analytical derivation of the optimum source patterns for the pseudospectral time-domain method

This paper presents an analytical investigation of the direct method of measurement of the source impedance of a linear time-variant source. The direct method yields a frequencydependent e!ective source impedance which is routinely used in a time-invariant analysis to determine the insertion loss of

This paper presents an analytical investigation into the relationship between the characteristics of a linear, time-variant acoustic source, and the e!ective source impedance and source strength which follow if one then assumes the source to be time invariant. It thus models the indirect measurement

Two different types of source excitation for finite-difference ( ) time-domain FDTD simulations, i.e., electric and magnetic field types, are in¨estigated in this work for configurations that ha¨e no ground planes. This paper shows that the electric field excitation introduces errors in the computed

## Abstract An alternative analytical reduction scheme was proposed in the time‐domain layered finite element reduction recovery (LAFE‐RR) method for the analysis of high‐frequency integrated circuits. This alternative reduction scheme permits the use of general absorbing boundary conditions in the