Near-resonant vibrational energy exchange between the stretching levels of H2O

The vibrational energy exchange between the stretching modes of Hz0 in the H20+Ar collision has been studied in a semiclassical method in the temperature range of 200-3000 K. The energy exchange probability increases slowly, but nearly linearly, with temperature over the entire range, reflecting a n

Using recently published potential energy surfaces, rovibrational energy levels are computed for the ground electronic states of H O and NO , using three-2 2 Ž . dimensional discrete variable representation DVR algorithms. Calculations are presented for H O to demonstrate the accuracy of these algor

Torsion-rotation energy levels of the excited vibrational state of the antisymmetric \(\mathrm{OH}\)-stretch fundamental \(\nu_{5}\) of hydrogen peroxide are reported. These levels are determined from \(1.24 \mathrm{~m}\) path difference Fourier transform spectra taken between 3200 and \(4200 \mathr

The adiabatic approximation for vibrational energies of three-mode IlaO is tested against accurate vibratiowl selfconststcnt field plus configuration interaction calculations. As formulated and applied in normal coordinates, the approxh is to couple the two high-frequency stretching modes exactly fo