Direct calculation of the frequency-dependent polarizability from a Cl matrix

The QED-MP2 model based on the quasi-energy derivative method in the second-order Moller-Plesset perturbation theory is formulated, and frequency-dependent (dynamic) polarizabilities [a(-w; o~)] for H20 and NH3 are calculated. Dynamic polarizabilities obtained for HzO agree with experimental values.

## Abstract The refractive index n(ω, __T, p__) of molecular chlorine, Cl~2~, was measured in the ranges of temperature __T__ between 290 and 1100 K and pressure __p__ between 10^4^ and 2 × 10^5^ Pa and at three wavelengths λ = 2μc~o~/ω between 632.990 and 543.516 nm. From these measurements the fr

more than that for the optimum cap height for an oscillator Ž . using practically the same cap diameter , leading to a maximum gain improvement of 25% and a linearity improvement of 4 dB. ## CONCLUSION The guidelines derived from experimental observations reported in this paper are expected to giv

We extended the dynamic response theory in the Møller᎐Plesset Ž . Ž . perturbation theory MPPT based on the quasi-energy derivative QED method for closed-shell systems to that for open-shell systems. In this study we perform the Ž . calculations of frequency-dependent polarizabilities ␣ y; for nonde

A 35Cl NQR study of 2-chloro-3-pyridinol showed the presence of four NQR signals at 77 K. One of the lines showed a positive temperature coefficient of the NQR frequency. 'HNMR studies showed the presence of intramolecular hydrogen bonding, and the anomalous NQR temperature dependence has been expla