The Pure Rotation Spectrum of HOCl in the Submillimeter-Wave Region

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

In the submillimeter range, from 345 to 410 GHz, 472 new rotational transitions in the vibrational ground state of hydrazine have been measured. The majority of recorded lines form eight K = 2 ← 1 Q-branches with J ≤ 30, each branch being split due to internal rotation in hydrazine. New rotational t

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 microwave spectra of two isotopic species of \(\mathrm{YCl}\) have been measured using a cavity pulsed microwave Fourier transform spectrometer. The samples were prepared using laser ablation of \(\mathrm{Y}\) metal in the presence of \(\mathrm{Cl}_{2} / \mathrm{Ne}\) mixture and were studied en

The Fourier transform microwave (FTMW) spectra of gaseous monomeric AuF, AuCl, and AuBr have recently been reported (1, 2). Among other things, equilibrium geometries were evaluated, as well as several hyperfine parameters. The Au nuclear quadrupole coupling constants (NQCC) were found to show a mar