Submillimeter wave spectrum of the SH+3 ion. J = 2-1, K = 0 and 1 transitions

Forbidden" rotational transitions of NH3 with the selection rules dl=O and k= f 1 t 7 2 were measured in the submillimeterwave region. The C, rotational constant for the lower component of the inversion doublet in the ground vibrational state is obtained from the observed spectrum as 186695.815 kO.0

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:

High-resolution sub-Doppler Lamb-dip measurements were performed on the low-J pure rotational transitions of the hydrogen chloride isotopomers H 35 Cl, H 37 Cl, D 35 Cl, and D 37 Cl in the submillimeter-wave region up to 646 GHz. For the J Å 1 -0 transitions of the two HCl isotopomers, the hyperfine

The first measurements of the millimeter-and submillimeter (mm/submm)-wave rotational-torsional transitions in the v 3 ϭ 1 ground torsional state (n ϭ 0) of hydrogen peroxide are reported. The 149 newly measured transitions extend from 72 to 623 GHz in frequency and up to J ϭ 32 and K a ϭ 3 in rotat