Scattering by ellipsoids of revolution a comparison of theoretical methods

This article presents the results of an extensive examination of the stable conformations of CH,CH,OCH,CH,OH at various levels of theory. In particular, 41 initial conformations are optimized using the MM2 force field in BIGSTRN-3; the MIND0/3, MNDO, and AM1 Hamiltonians in AMPAC 2.2; the PM3 Hamilt

## Abstract We present a multidomain pseudospectral method using cylindrical and spherical coordinates for the accurate and efficient time‐domain computation of scattering by bodies of revolution (BOR). In the BOR formulation of Maxwell's equations, the Fourier collocation method is utilized in the

## Abstract Methods for the computation of electromagnetic scattering by partially inhomogeneous dielectric bodies are considered. The formulations are based on hybrid volume/surface integral equations (VIE/SIE), where volume‐equivalent currents are used to model the inhomogeneous parts of the body

Various nitrogen clusters, N,, are selected for the present theoretical study. The number of nitrogen atoms chosen in this work varies from x = 8 to x = 32. PM3, which is known as one of the best semiempirical methods, is selected for the self-consistent molecular orbital calculations. The geometric