Intermolecular vibrational states far above the van der Waals minimum: Combination bands of the polar N2O dimer

Abstract

Infrared combination bands of the polar isomer of the N2O dimer are observed for the first time, using a tunable infrared laser source to probe a pulsed slit-jet supersonic expansion in the N2O ν1 region (≈2240 cm−1). One band involves the torsional (out-of-plane) intermolecular mode and yields a torsional frequency of 19.83 cm−1 if associated with the out-of-phase fundamental (N2O ν1) vibration of the N2O monomers in the dimer. The other band, which is highly perturbed, yields an intermolecular in-plane geared bend frequency of 22.74 cm−1. The results are compared with high level ab initio calculations. The less likely alternate assignment to the in-phase fundamental would give torsional and geared bend frequencies of 17.25 and 20.16 cm−1, respectively.