Anisotropy of the displacement energy in single crystals of molybdenum
作者:
F. Maury,
P. Vajda,
M. Biget,
A. Lucasson,
P. Lucasson,
期刊:
Radiation Effects
(Taylor Available online 1975)
卷期:
Volume 25,
issue 3
页码: 175-185
ISSN:0033-7579
年代: 1975
DOI:10.1080/00337577508235387
出版商: Taylor & Francis Group
数据来源: Taylor
摘要:
A “geometrical” model for the threshold cnergy surfaceof a b.c.c. lattice is applied to analyse recent measurements of the resistivity change rates in electron-irradiated monocrystalline molybdenum specimens with the orientations [100], [11O], [111] and [112]. Cross sections computed with this surface were matched to the experimental data using various sets of threshold energies as parameters. The best fit was obtained with Td [100] = (35+2−2) eV, Td [1101 > 2Td [100], Td [111] = (45 f 3) eV. When corn ared to the experimental damage rates the absolute values for the cross sections yield a Frenkel pair resistivity pio = (13 f 2) pfl cm/at.% F.P. Expressions for the energy necessary to penetrate the potential barriers in the principal crystallographic directions are derived and compared to the id[iik] obtained before, with the interatomic potential as parameter. Taking into account the length of the [111] collision chains and the size of the spontaneous recombination volume, the appropriate potential can be chosen in the range between UMo(r)/eV = 3000 exp(−3.2 r/A) and 11,000 exp(−3.8 r/A). An analysis of the displacement cross sections permitted to explain the energy and orientation dependence of stage I recovery and to attribute the sub-stages a t 15 K and 40 K to the annealing o f interstitials due to [100] displacements and the substages between 20 and 33 K to that of [111] chains of various lengths.
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