Abstract
Rotational and vibrational temperatures of He, O2. and CO2have been examined in carbon and molybdenum cathodes as functions of pressure and discharge current. The rotational temperature is strongly dependent on the conditions. The rotational temperatures of CO+, N +2 , C2, CN, and OH are identical in simultaneous measurements.
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Yu. I. Korovin and L. V. Lipis, Opt. i spektr., no. 3, 334, 1958.
S. L. Mandel'shtam and V. V. Nedler, Opt. i spektr., no. 3, 390, 1961.
N. P. Ivanov, V. V. Nedler, and E. N. Andrikanis, Zavodskaya laboratoriya, 27, 7, 836, 1961.
A. D. Sakharov, Izv. AN SSSR, seriya fiz., no. 4, 372, 1948.
Richard Schoen and John R. Homes, J. Opt. Soc. Am., vol. 44, 502, 1954.
K. N. Rao, Astrophys. J., 111, 306, 1950.
T. N. Popova, Autor's abstract of.dissertation, Tomsk, 1956.
B. N. Klyarfel'd, Izv. AN SSSR, seriya fiz., no. 3, 463, 1956.
P. F. Little and A. von Engel. Proc. Roy, Soc., 224, 1157, 1954.
V. A. Gromov and A. G. Ershov, Transactions of the Tenth All-Union Conference on Spectroscopy [in Russian], 2, 80, 1958.
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Ostroumenko, P.P., Rossikhin, V.S. Temperatures in a hollow-catmode discharge. Soviet Physics Journal 8, 9–11 (1965). https://doi.org/10.1007/BF00818271
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DOI: https://doi.org/10.1007/BF00818271