Abstract
Yields of Fe3+ from aerated and deaerated solutions of ferrous sulfate irradiated with high energy carbon or neon ions are shown to be consistent with current theoretical models of radiation chemistry, if fragmentation of the incident ion is taken into account. For argon, the observed yields are higher than predicted.
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E.A. Christman, A. Appleby, M. Jayko,Rad. Res., 85 /1981/ 443.
A. Chatterjee, J.L. Magee, In Proc.: Sixth Symposium on Microdosimetry, Brussels /J. Boaz and H.G. Ebert, Eds./ pp. 283–294. Commission of the European Communities, Harwood, London, 1978.
H.H. Heckman, D.E. Greiner, P.J. Lindstrom, H. Shwe, Report LBL-3656, Lawrence Berkeley Laboratory, Berkeley, Cal. 1977.
A. Chatterjee, C.A. Tobias, J.T. Lyman, In: Spallation Nuclear Reactions and their Applications. /B.S. Shen and M. Merker, Eds./, pp. 169–191, Reidel, Dordrecht, 1976.
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Appleby, A., Christman, E.A. Radiation chemistry of high energy carbon, neon and argon ions: Effects of nuclear fragmentation. Journal of Radioanalytical and Nuclear Chemistry Letters 94, 241–250 (1985). https://doi.org/10.1007/BF02165167
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DOI: https://doi.org/10.1007/BF02165167