Rovibrational analysis of the v15 band in the HCN---HF hydrogen bonded cluster

Static gas phase far infrared Fourier transform spectroscopy has been applied to the observation of the low frequency intermolecular bending fundamental v: in the HCN---HF hydrogen-bonded complex. Rovibrational analysis of this band is reported giving the following molecular parameters (in cm-'): 8,

The microwave spectrum of the heterodimer EKYbMF is reported, the collinearity of the nuclei establislIed, and ro(N--F) = 2.796 A obtained. From the Stark effect, ~10 (tiCN4iF) = 5.59 r 0.02 D which indicates an enhancement of 0.78 D over the vector sum of the monomer values.

The pa R-branch rotational spectra of Lhe ground and first exnlcd nateS of tie Wee lowcsr vibrauonal modes of tie H,O.\_.HF hekrodiier have been observed in the frequency range 40-80 GHz Canolis perturbations between Ihe ground vibrational stik (u = 0) and the first excited smte oE the OUI-of-plane

A study of the temperature evohtion of the vs(OD) band of self-assuciated CHjOD in solution shows cka.dy that the structure in this band is due to Fermi resonance with an infrared inactive overtone or combination. The degree of mismatch between tbe two interfering modes can be varied continuously ov

Independent estxmates have been obtained for the dampms constant 7 of the v,(OH,. N) mode of phenol-pyridme m carbon tetrachloride, by analysing the far-mfrared p. and the mid-mfrared t~s band proffies. The e&mates of y are in-compatl%le Possible causes of the discrepancy, and their theoretical impl