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Formation and quenching kinetics of ArF
1.A. Hawryluk, J. A. Mangano, and J. H. Jacob, 3rd Summer Colloquium on Electronic Transition Lasers, 1976 (unpublished).
2.D. C. Lorents, R. M. Hill, D. L. Huestis, M. V. McCusker, and N. H. Nakano, in Ref. 1.
3.J. E. Velazco, J. H. Kolts, and D. W. Setser, J. Chem. Phys. 65, 3468 (1976).
4.J. A. Mangano, J. H. Jacob, M. Rokni, and A. Hawryluk, Appl. Phys. Lett. 31, 26 (1977).
5.H. C. Brashears, Jr., D. W. Setser, and D. MesMarteau (unpublished).
6.M. Rokni, J. H. Jacob, J. A. Mangano, and R. Brochu, Appl. Phys. Lett. 30, 458 (1977).
7.D. W. Setser (private communication).
8.J. M. Hoffman, A. K. Hays, and G. C. Tisone, Appl. Phys. Lett. 28, 538 (1976).
9.M. Krauss (private communication).
10.T. H. Dunning and P. J. Hay, 7th Winter Colloquium on High Power Visible Lasers, Park City, Utah, 1977 (unpublished).
11.J. A. Mangano and J. H. Jacob, Appl. Phys. Lett. 27, 495 (1975).
12.It was determined aposterion that at 150 Torr the Ar quenching of introduces a 5% error. This error was corrected for subsequently.
13.About 10% of the e‐beam power goes directly into producing the rare‐gas metastables. See for example, L. R. Peterson and J. E. Allen, J. Chem. Phys. 56, 6068 (1972). In the experiments performed the primary loss for is by quenching to form
14.D. K. Bohme, N. G. Adams, M. Moselman, D. B. Dunkin, and E. E. Ferguson, J. Chem. Phys. 52, 5094 (1970).
15.S. Stofte, A. E. Procter, and R. B. Bernstein, J. Chem. Phys. 65, 4990 (1976).
16.M. Krauss (private communication).
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