Frequency-dependent dipole and quadrupole polarizabilities for the ground state of boron

A set of high-resolution Stark measurements at millimeter-wave frequencies is reported for \(\mathrm{CH}_{3}{ }^{79} \mathrm{Br}\) and \(\mathrm{CH}_{3}{ }^{81} \mathrm{Br}\). These results are analyzed together with previous data available in the literature to find new sets of molecular (rotational

Ground and first escited singlet state electric rr dipolc pohrimbilitics for a set of 13 N-retinylidene derivatives arc reported. The cnlculntions arc made by means of second order perturbation theory with Hkckcl state functions as a basis.

The static electric dipole polarizabilities and second-order hyperpolarizabilities of several bare boron clusters have been calculated with density functional theory. The average second-order hyperpolarizability γ av reaches a saturation limit of about 50,000 a.u. already with B 5 for a given type o

Using Hartree-Fock SCF wavefunctions all independent components of ah ebctric polarinability and hyperpohuizability tensors up to the fourth rank have been calculated for the ground state of the hydrogen molecule. Our values for the isotropic components of the c1,7, C and B tensors are 5.13 e2 a$ Ei