DocumentCode
1075107
Title
Absorption in the near-ultraviolet wing of the Kr2 F*(410 nm) band
Author
Eden, J.G. ; Chang, R.S.F. ; Palumbo, L.J.
Author_Institution
Univ. Of Illinois, Urbana, IL, USA
Volume
15
Issue
10
fYear
1979
fDate
10/1/1979 12:00:00 AM
Firstpage
1146
Lastpage
1156
Abstract
An intracavity laser technique has been used to study the absorption of electron-beam pumped Ne/Kr/F2 gas mixtures (196 and 300 K) in the "blue wing" of the Kr2 F emission continuum. The experiments were conducted at 358 nm using the 
transition of the N2 ( 
) laser. Comparing the results with the predictions of a computer model, the species primarily responsible for absorption have been identified as Ne+2 , Kr+2 , and Kr2 F*. The photoabsorption cross sections for Ne+2 and Kr2 F (Kr+2 F-) at 358 nm have been estimated to be 
and 
cm2, respectively. The Kr2 F* absorption cross section is roughly 20 percent of that reported for Kr+2 at the same wavelength. The fluorescence efficiency of Kr2 F* in 
-beam excited 94.93 percent Ne/5 percent Kr/0.07 percent F2 ( 
torr) gas mixtures has been found to be a factor of 2.8 higher than that of the N2 ( ) band in Ar/5 percent N2 mixtures. Also, the rate constant for quenching of Kr2 F* by F2 was measured to be 
cm3. s-1at 300 K and 
cm2. s-1at 196 K.
transition of the N ) laser. Comparing the results with the predictions of a computer model, the species primarily responsible for absorption have been identified as Ne+ and cm2, respectively. The Kr -beam excited 94.93 percent Ne/5 percent Kr/0.07 percent F torr) gas mixtures has been found to be a factor of 2.8 higher than that of the N ) band in Ar/5 percent N cm3. s-1at 300 K and cm2. s-1at 196 K.Keywords
Gas lasers; Absorption; Argon; Fluorescence; Gas lasers; Laser excitation; Laser modes; Laser transitions; Predictive models; Pump lasers; Roentgenium;
fLanguage
English
Journal_Title
Quantum Electronics, IEEE Journal of
Publisher
ieee
ISSN
0018-9197
Type
jour
DOI
10.1109/JQE.1979.1069898
Filename
1069898
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