The hyperpolarizability of neon revisited

The anisotropy of the magnetic hyperpolarizability A~/, which determines the Cotton-Mouton effect, has been calculated for the Ne atom using the multiconfiguration response method. Our result for A~/at wavelength 2=514.5 nm, 2.670+0.145 (in atomic units of r/), agrees well with previous estimates an

## Abstract We monitor the influence of the bond length alternation (BLA) modification on the static electronic polarizability and first hyperpolarizability of two polymethineimine oligomers. Four theoretical approaches are compared: HF, PBE0, LC‐ωPBE, and MP2. For the dodecamer, both HF and PBE0 a

The hyperpolarizability dispersion of para-nitroaniline is explored by random phase (RPA) and multi-conf~uration quadratic (MCQR) response theory calculations employing a complete active space correlating all z-electrons. The change in the dispersion as a result of the n-electron correlation is smal

We have computed the static dipole polarizability, second hyperpolarizability, quadrupole polarizability and dipole-dipolequadrupole hyperpolarizability for the Ne atom, using large Gaussian basis sets and coupled cluster wavefunctions. Correlation effects are substantial, ranging from 15% for the d

Polyacetylene (PA) polymers -(-CH=CH-), lead to large second hyperpolarizabilities (y) that increase with N. For small N the increase is quite rapid, eventually saturating (becoming linear in N) for N > N& Both experimental and theoretical attempts have been made to estimate N,Y,,. In 1994 this led

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