Hyperfine and Stark spectrum of DBr in the millimeter-wave region

A new investigation of the CF 2 35 Cl 2 ground state rotational spectrum in the 50 -100 GHz frequency range gave an opportunity to improve the accuracy of rotational and quartic distortion parameters by an order of magnitude and to determine values of six sextic centrifugal distortion parameters. A

Rotational spectra of the magnesium and chlorine isotopomers of MgCl (X 'Z') have been measured in the frequency range 260-380 GHz using direct absorption techniques. The species studied ( 25Mg3sC1, 2sMg37CI, 26Mg35Cl, and 26Mg37C1) were created in a dc glow discharge by the reaction of magnesium va

The hyperfine structure of the J= I) -1 rotational transition of the H 79 Br and HslBr at 500 GHz has been investigated with a high resolution submillimeter wave beam-spectrometer. The hyperfine coupling constants and ratio of the nuclear quadrupole moments of bromine isotopes in molecular HBr have

The ground state rotational spectrum of \(\mathrm{CHF}_{2} \mathrm{Cl}\) has been observed and analyzed in the frequency region \(70-1280 \mathrm{GHz}\). Transitions with values of \(J\) up to 80 have been observed and the centrifugal distortion analysis of the spectrum has been performed using both