Measurement of the anisotropy of the static polarizability of molecular hydrogen

The differential diffusion Monte Carlo method, involving correlated random walks, is used to calculate the static polarizabilities of molecular hydrogen and helium by application of a finite electrostatic field. The results are for molecular hydrogen (~,=4.60(3) au; (Y, =6.38(S) au; for helium LY= 1

The Cotton-Mouton effect ofgaseous hydrogen has been measured with HeNe laser radiation in the temperature range between -86 and 129°C using pressures up to 200 bar. The data were reduced to the zero-density limit by means of a second-order virial expansion. Calculating the temperature-dependent con

The dipole moment, static polarizability and hyperpolarizabilities of hydrogen peroxide, H202, have been determined in large-scale ab initio calculations using the coupled cluster method, CCSD(T). The dependence of the calculated properties on the torsional HOOH angle is discussed. At the CCSD(T)/au

The static polarizabilities, or, of various xanthone analogues (1-19) were estimated by ab initio molecular orbital calculations using the coupled perturbed Hartree-Fock (CPHF) method. The influence of basis sets on the calculated values was examined in detail and the reliability of the ECP approach