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Formation of substitutional alloys by ion implantation in metals
1.See, for example, Applications of Ion Beams to Metals, edited by S. T. Picraux, E. P. EerNisse, and F. L. Vook (Plenum, New York, 1974).
2.H. deWaard and L. C. Feldman, in Ref. 1, p. 317.
3.Some of the Au‐in‐Cu data have been presented in a preliminary form: J. A. Borders, J. M. Poate, and W. J. DeBonte, Bull. Am. Phys. Soc. 19, 257 (1974).
4.M. Hansen, Constitution of Binary Alloys, 2nd ed. (McGraw‐Hill, New York, 1958).
5.The substitutional fraction S is defined by
6.R. B. Alexander, P. T. Callaghan, and J. M. Poate, Phys. Rev. B 9, 3022 (1974).
7.N. L. Peterson, Solid State Phys. 22, 409 (1968).
8.R. B. Alexander and J. M. Poate, Radiat. Eff. 12, 211 (1972).
9.W. Hume‐Rothery, R. E. Smallman, and C. W. Haworth, The Structure of Metals and Alloys, 5th ed. (Institute of Metals, London, 1969).
10.W. Schilling, G. Burger, K. Isebeck, and H. Wenzel, Vacancies and Interstitials in Metals, edited by A. Seeger, D. Schumacher, W. Schilling, and J. Diehl (North‐Holland, Amsterdam, 1970).
11.M. W. Thompson, Defects and Radiation Damage in Metals (Cambridge U.P., Cambridge, England, 1969).
12.E. N. Kaufmann, J. M. Poate, and W. M. Augustyniak, Phys. Rev. B 7, 951 (1973).
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