Excitation or spectroscopic temperatures have been determined for various operating conditions of a hollow cathode discharge. It was found that the temperatures measured do not significantly change over the range of conditions studied. These results are compared to those obtained in other low-pressure discharges. The temperature values as well as trends are found to be very similar.
SlevinP. J. and HarrisonW. W., Appl. Spectrosc. Rev.10, 201 (1975).
2.
MehsD. M. and NiemczykT. M., Appl. Spectrosc.32, 269 (1978).
3.
WaltersP. E.ChesterT. L., and WinefordnerJ. D., Appl. Spectrosc.31, 1 (1977).
4.
BuschK. W. and VickersT. J., Spectrochim. Acta28B, 85 (1973).
5.
BrassenP. and MaessenF. J. M. J., Spectrochim. Acta29B, 203 (1974).
6.
KornblumG. R. and de GalenL., Spectrochim. Acta32B, 71 (1977).
7.
de GalenL. and WinefordnerJ. D., Anal. Chem.38, 1412 (1966).
8.
ReifI.FasselV. A., and KniseleyR. N., Spectrochim. Acta28B, 195 (1973).
9.
TourinR. H., Spectroscopic Gas Temperature Measurement (Elsevier, Amsterdam, 1966).
10.
KirkbrightG. F.SargentM., and VetterS., Spectrochim. Acta25B, 465 (1970).
11.
BevanD. G. and KirkbrightG. F., Appl. Spectrosc.30, 162 (1976).
12.
AdcockB. D. and PlumtreeW. E. G., J. Quant. Spectrosc. Radiat. Transfer4, 29 (1964).
13.
WieseW. L.SmithM. W., and GlennonB. M., Atomic Transition Probabilities, Vol. I, NSRDS-NB4–4 (1966) and WieseW. L.SmithM. W., and MilesB. M., Atomic Transition Probabilities, Vol. II, NSRDS-NBS-22 (1969).
14.
CorlissC. H. and TechJ. L., Oscillator Strengths and Transition Probabilities of 3288 Lines of FeI, NBS Monograph 108 (1968).
15.
McCameyD. A., Ph.D. Dissertation, University of New Mexico (1978).
