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Enrichment of N15 by chemical reactions in a glow discharge at 77 °K
1.C. J. Collins and N. S. Bowman, Isotope Effects in Chemical Reactions, ACS Monograph No. 167 (Van Nostrand‐Reinhold, New York, 1970), p. 15.
2.J. Lukasik and J. Ducing, Chem. Phys. Lett. 27, 203 (1974).
3.W. M. Kays, Convective Heat and Mass Transfer (McGraw‐Hill, New York, 1966), p. 170.
4.F. A. Cotton and G. Wilkinson, Advanced Inorganic Chemistry (Wiley‐Interscience, New York, 1972), p. 361.
5.In Ref. 4, p. 179.
6.E. R. Lory and S. H. Bauer (unpublished) have studied the influence of impurities when a direct analysis of the reaction products is attempted. They found that the ratio of the to the peaks can be made as large as 6.8% when sufficient is added to a sample of pure NO and analyzed on a conventional magnetic sector mass spectrometer. When the inlet system is conditioned properly and no water is present in the sample, this ratio assumes its expected value of 0.37%. They interpret these observations in terms of the ion‐molecule reaction if is present in the sample,
7.Hercules Inc., Nitrogen Tetroxide (Air Products and Chemicals, Inc., Allentown, Pa., 1968), p. 116.
8.N. G. Basov, E. M. Belenov, L. K. Gavrilina, V. A. Isakov, E. P. Markin, A. N. Oraevskii, V. I. Romanenko, and N. B. Ferapontov, JETP Lett. 19, 190 (1974).
9.A. N. Wright and C. A. Winkler, Active Nitrogen (Academic, New York, 1968), p. 1.
10.C. E. Treanor, J. W. Rich, and R. G. Rehm, J. Chem. Phys. 48, 1798 (1968).
11.In Ref. 4, p. 344.
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