Precision Determination of CF Dipole Moment by Nonlinear Infrared Spectroscopy
- 14 December 1970
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 25 (24), 1639-1641
- https://doi.org/10.1103/physrevlett.25.1639
Abstract
An optical double-resonance effect, requiring two optical frequencies, is demonstrated in the infrared for the molecule CF, and provides high-precision dipole-moment values for both the ground and an excited vibrational state. The method is a particularly convenient and precise means for probing optically excited molecular levels.
Keywords
This publication has 12 references indexed in Scilit:
- Laser action at 452, 496, and 541 μm in optically pumped CH3FOptics Communications, 1970
- Level Crossing in CObserved by Nonlinear AbsorptionPhysical Review Letters, 1969
- PASSIVE Q-SWITCHING OF THE CO2 LASER BY CH3F AND PF5 GASESApplied Physics Letters, 1969
- Precision Infrared Stark Spectra ofD Using Lamb DipPhysical Review Letters, 1969
- Laser-Induced Line-Narrowing Effects in Coupled Doppler-Broadened TransitionsPhysical Review B, 1969
- Design and short-term stability of single-frequency CO2lasersIEEE Journal of Quantum Electronics, 1968
- Stability measurements of CO2-N2-He lasers at 10.6 µm wavelengthIEEE Journal of Quantum Electronics, 1967
- Hyperfine Structure and Paramagnetic Properties of Excited States of Xenon Studied with a Gas LaserPhysical Review Letters, 1966
- Stark Effect and Dipole Moment of Methyl FluorideThe Journal of Chemical Physics, 1963
- Vibration-rotation spectra of CH3FJournal of Molecular Spectroscopy, 1963