DocumentCode
1132929
Title
Some new aspects in stimulated Raman scattering from hydrogen gas
Author
Duardo, Joseph A. ; Johnson, Fred M. ; Nugent, Leonard J.
Author_Institution
Electro-Optical Systems, Inc., a Xerox Company, Pasadena, CA, USA
Volume
4
Issue
6
fYear
1968
fDate
6/1/1968 12:00:00 AM
Firstpage
397
Lastpage
403
Abstract
Stimulated Raman scattering (SRS) from high-pressure H2 gas was observed when giant-pulse ruby-laser radiation of frequency
cm-1, and its second harmonic of frequency
, were simultaneously focussed on the sample. The well-known SRS from H2 was observed when only the radiation of frequency
was focussed on the sample. When only the second harmonic power was focussed on the sample, SRS was not observed, and power measurements showed that the threshold in this case was considerably higher than the power available. An SRS spectrum identical to that which would be produced by the second harmonic radiation, that is, the appearance of components at the frequencies
, where
cm-1and
..., was observed when both the fundamental and the second harmonic laser power were simultaneously focussed on the sample. Whenever the SRS threshold for the fundamental component was reached, the SRS of the second harmonic occurred at excitation powers estimated to be two orders of magnitude below the normal threshold power. These results and others previously reported on the generation of SRS vibration-rotation combination lines in H2 are discussed, and the multiple-photon resonant interaction mechanisms based on the classical or semiclassical theory of molecular motions and light modulation are proposed for the generation of the observed lines.
cm-1, and its second harmonic of frequency
, were simultaneously focussed on the sample. The well-known SRS from H
was focussed on the sample. When only the second harmonic power was focussed on the sample, SRS was not observed, and power measurements showed that the threshold in this case was considerably higher than the power available. An SRS spectrum identical to that which would be produced by the second harmonic radiation, that is, the appearance of components at the frequencies
, where
cm-1and
..., was observed when both the fundamental and the second harmonic laser power were simultaneously focussed on the sample. Whenever the SRS threshold for the fundamental component was reached, the SRS of the second harmonic occurred at excitation powers estimated to be two orders of magnitude below the normal threshold power. These results and others previously reported on the generation of SRS vibration-rotation combination lines in HKeywords
Frequency; Hydrogen; Laboratories; Laser excitation; Optical modulation; Power lasers; Power measurement; Power system harmonics; Raman scattering; Resonance light scattering;
fLanguage
English
Journal_Title
Quantum Electronics, IEEE Journal of
Publisher
ieee
ISSN
0018-9197
Type
jour
DOI
10.1109/JQE.1968.1075351
Filename
1075351
Link To Document