Semiclassical theory of optical rotation. Application of a closed form solution of the optical activity problem

Earlier work on optical activity in pure rotational spectroscopy is generalized to the more realistic model of the asymmetric top. The analog of the Rosenberg dispersion formula for the optical activity parameter, 8, is given for the J= 0 state of an asymmetric top. It involves only the coupling to

The theory of the optical activity of the asymmetric top in pure rotational spectroscopy is extended to near-resonant frequencies, where there is no analog of the Rosenberg dispersion formula except at zero intensity. Since the optical activity effects due to pure rotational motion are expected to b

A semiempirical theory of optical activity of saccharides is developed that (a) goes beyond previous empirical treatments, (b) yields calculated Nan rotations which correlate well with experimental data, and (c) accounts for a characteristic c.d. band observed for polysaccharides in the vacuum U.V.

In this article the FDTD method was uscd in an interactive method to improve the performance of a TEM horn antenna for pulse radiation. The specified design objectives were met, and they were cxperimentally vcrified.