Development of the Dipole Moment and Polarizability Operators of Octahedral Molecules

## Abstract A method to compute distributed dipole–quadrupole polarizabilities is suggested. The method is based on numerical differentiation of distributed quadrupole moments, using finite field perturbation calculations. It is tested using two different multicenter multipole expansions, and compa

Table 1. Absolute Mean Error of Calculation for the Molecules Using Different Methods for Various Basis Sets. [kJ/mol] Method MB VDZ VDZP VTZP

The present work reports an ab initio MRD-CI calculation of the dipole moment surfaces for the electronic ground state of the H 2 Te molecule. Using the ab initio results, we calculate the vibrational transition moments, and we simulate the far-infrared spectrum of H 2 Te by means of the MORBID prog

We present a development of the Hamiltonian, dipole moment, and polarizability operators of XY 5 Z (C 4v ) molecules using a tensorial formalism derived from the one developed previously in Dijon for XY 6 molecules. These operators are involved in the calculation of the energies and intensities of r

The microwave spectrum of monofluorobenzene in the frequency region between 7.5 and 14 GHz was studied using a molecular beam Fourier transform microwave spectrometer. The rotational and centrifugal distortion constants were found to be A Å 5663.7369(38) MHz, B Å 2570.6535(4) MHz, C Å 1767.9134(4) M

The electric birefringence of collagen solutions has been measured over a wide range of field strength with the pulse technique. The soluble collagen was from rat tail tendon. The solvent used was dilute acetic acid. Very pronounced saturation of the electric birefringence was observed, permitting c