ChemInform Abstract: The Millimeter- and Submillimeter-Wave Rotational Spectrum of CH3CF3: Observation of the K = 3 Splitting.

The ground state rotational spectrum of \(\mathrm{CH}_{3} \mathrm{CF}_{3}\) was measured from \(190 \mathrm{GHz}, J=18\), up to \(910 \mathrm{GHz}, J=87\) and \(K=63\). These measurements allow us to determine accurate molecular constants, including the three sextic centrifugal distortion constants:

The millimeter- and submillimeter-wave spectrum of the ground and \(v_{2}=1\) vibrational excited state of \(\mathrm{PF}_{3}\) has been observed and analyzed. A centrifugal distortion analysis of the spectra extended up to the octic terms allowed an accurate determination of the spectroscopic consta

The milimeter-wave, submillimeter-wave, and FIR spectra of the ground state of \(\mathrm{CHF}_{3}\) have been observed and analyzed up to \(J=78\). The resulting spectroscopic constants are: \(B_{0} / \mathrm{MHz}=\) \(10348.8706(2), D_{j} / \mathrm{kHz}=11.34482(13), D_{J K} / \mathrm{kHz}=-18.1176

The millimeter and submillimeter-wave spectrum of the ground state of CHJSCl, has been observed and analyzed up to J= 106. Theresultingspectroscopicconstantsare(inMHz):~=3302.07587(12),0,=1.511716( 66)~10~~,D,,=-2.51757(20)~10-~, H~~~=O.l268(12)~10-\*, HJJK= -0.5000(30)~10-', H~=O.652(11)~10-\*, L,=