Fission Fragment Damage to Crystal Lattices: Lead Iodide. II. Atomic Displacement

Details Fission Fragment Damage to Crystal Lattices: Lead Iodide. II. Atomic Displacement Fission Fragment Damage to Crystal Lattices: Lead Iodide. II. Atomic Displacement

Sep 1966

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1966rspsa.294...93c&link_type=abstract

Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, Volume 294, Issue 1436, pp. 93-111

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Scientific paper

This paper describes some dynamic calculations which have been performed for a simulated lead iodide lattice on a high speed digital computer. The principle is similar to that of earlier computations for metals by Gibson, Goland, Milgram & Vineyard (1960). The results show that channelling of atoms in the lead iodide lattice is possible in the <1011> direction and parallel to the basal plane. It is suggested that channelling of knocked-on lattice atoms in lead iodide may be a factor in increasing considerably the mobility of point defects in an irradiated crystal and in explaining electron microscope observations of fission fragment damage.

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