Radio-Frequency, Centimeter-Wave, Millimeter-Wave, and Infrared Spectra of SiDF3 in the v6 = 1 Excited State

The present paper deals with the analysis of the microwave, millimeter-wave, and infrared spectra of 28 SiHF 3 in its ground, v 6 ϭ 1 and v 4 ϭ 1 excited states. The former was observed up to 1055 GHz leading to the determination of one octic centrifugal distortion constant, L J ϭ Ϫ0.0749(55) Hz. Fu

The ν 4 band of NF 3 , ν0 = 493.423 cm -1 , has been studied by FTIR spectroscopy with a resolution of 3 × 10 -3 cm -1 . Strong intensity perturbation by (2, 2) resonance is revealed. The more than 5000 IR assignments were complemented by 132 millimeter-wave measurements in the regions 140-250 and 3

Millimeter-wave spectra of HSiF 3 and DSiF 3 in the v 3 ϭ 1 excited state have been measured from 100 to 490 GHz. Infrared spectra have been recorded in the 3 regions, 0 424.0301 and 420.9320 cm Ϫ1 in HSiF 3 and DSiF 3 , respectively, with a resolution of 2.4 ϫ 10 Ϫ3 cm Ϫ1 . Since in both species th

Pure rotational spectra of gaseous CH 3 SiH 3 in the two interacting torsional states (£ 12 Å 0, £ 6 Å 3) and (£ 12 Å 1, £ 6 Å 0) were observed in the region from 87 to 197 GHz using a mm-wave spectrometer. Here £ 12 and £ 6 are, respectively, the principal quantum numbers for the silyl rocking mode

This paper presents the analysis of the spectra of SiDF 3 in its vibrational ground and v 4 ϭ 1 states. The pure rotational spectrum of the ground state was measured up to 903 GHz ( JЉ ϭ 65). Rotational, quartic, and sextic centrifugal distortion constants were accurately determined. Furthermore the

The 2 ( eff. 854.841 cm Ϫ1 ) and 2 3 infrared bands ( eff. 840.083 cm Ϫ1 ) of DSiF 3 have been studied with a resolution of 2.5 ϫ 10 Ϫ3 cm Ϫ1 . Moreover, millimeter-wave transitions in the v 2 ϭ 1 and v 3 ϭ 2 states up to JЉ ϭ 33 have been measured. The assignments and fit of the poorly resolved, co