High resolution submillimetre Stark spectroscopy using an HCN maser

1 January 1971

journal article
research article
Published by Taylor & Francis in Molecular Physics

Vol. 20 (4) , 721-734
https://doi.org/10.1080/00268977100100691

Abstract

High resolution Stark spectra have been observed for the pure rotation transition of D₂O which lies very close to the 337 µm HCN maser emission. The assignment of the transition is confirmed as 6₂₄-6₁₅ and the frequency separation as approximately 370 Mhz on the low frequency side of the maser emission. Stark spectra have been observed for several other gases but due to the large number of Stark components complete resolution was not achieved. However, it is shown that even in these cases some information can be gained about the type of pure rotation transition responsible for the absorption.

Keywords

This publication has 18 references indexed in Scilit:

Identification of molecular coincidences with the 337μm HCN maser line
Journal of Physics B: Atomic and Molecular Physics, 1970
High resolution submillimetre spectroscopy at 890 GHz
Physics Letters A, 1969
Refractive index of D2O at the HCN laser frequency
Infrared Physics, 1969
Dipole Moment of NH3 in the ν2 Excited State
The Journal of Chemical Physics, 1969
Precision Infrared Stark Spectra of $N^{14}$ $H_{2}$ D Using Lamb Dip
Physical Review Letters, 1969
High-resolution Stark spectroscopy of molecules by infrared and far-infrared masers
IEEE Journal of Quantum Electronics, 1968
Observation of pressure broadening effects in D2O using a CN maser
Infrared Physics, 1967
The Microwave Spectrum and Dipole Moment of Pyrazole
Journal of the American Chemical Society, 1967
The Stark Effect for a Rigid Asymmetric Rotor
The Journal of Chemical Physics, 1948
A Microwave Spectrograph
Physical Review B, 1947