Induced dipole moment of purple membranes Theoretical analysis

Induced dipole moments are analyzed using a semi-empirical method in order to take into account the face specificity of the substrate. We consider dielectric and metallic surfaces. A simplified model for the metal leads to results in good agreement with experiment.

We calculate in a simple MO way the dipole moment induced in HD by the nuclear quadrupole of the deuteron, as a function of the internuclear separation. We find a reversal of the direction of the dipole with increasing internuclear separation, for which we note indirect experimental evidence. As a c

Theoretical S 2~1 potentkls and dipole moment functions for OF are presented at the CASSCF, externally contracted Cl. and JlRCI(SD) levels using DZP and extended gaussian basis sets. The best theoretical results (with experiment in parentheses) are pu =O = -0.0089 (-0.0033) and ,uv=l = -0-0318 (-0.0

Accurate theoretical dipole moments (/I,) have been computed for the X2n ground states of Si-H+ (0.118 D), Ge+ H-(0.085 D) and Sn+H-(0.357 D). The trend down the periodic table is regular and follows that expected from the electronegativities of the group IV atoms. The dipole moment of 1.24 k 0.1 D

In this article the theoretical analysis concerning photoconducting antennas is made with the use of time-resol¨ed Maxwell equations associated with a drift diffusion model for photoconductor beha¨ior. This method will be applied to the study of particular antennas in order to see the influence of t