Effect of irradiation on grain size and texture in Mo and Ta films

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Abstract

Implantation of heavy ions into metal matrices leads to the creation of a high concentration of radiation defects. X-ray diffraction studies of Mo and Ta foils implanted with 57Fe ions have been carried out. It is shown that the implantation of Fe ions does not significantly affect the lattice parameters. It has been established that irradiation leads to broadening of diffraction lines and a decrease in the size of crystal grains. The Mo and Ta foils with {100} orientation are found to be highly textured. Irradiation with Fe ions has no noticeable effect on the texture. However, subsequent annealing at a temperature of 700°С weakens the texture on the irradiated side for Mo and Ta foils without affecting the texture of the nonirradiated side.

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About the authors

V. A. Andrianov

Lomonosov Moscow State University, Skobeltsyn Institute of Nuclear Physics

Author for correspondence.
Email: andrva22@mail.ru
Russian Federation, 119991, Moscow

K. A. Bedelbekova

Institute of Nuclear Physics

Email: andrva22@mail.ru
Kazakhstan, 050032, Almaty

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2. Fig. 1. Concentration depending on depth: a – implanted 57Fe atoms in the Mo (1) and Ta (2) matrices; b – primary defects for Mo (1) and Ta (2). Calculations were performed using the SRIM-2013 program; displacement energy Ed(Mo) = 60 eV and Ed(Ta) = 90 eV.

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3. Fig. 2. Diffractogram of Mo and Ta foils implanted with 57Fe ions. Changes from the irradiated (Irr) and reversed sides (Back): a – Ta-Irr; B – Ta-Back; c – Mo-Irr; d – Mo-Back.

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4. 3. The intensity of X–ray reflexes 110, 100, 211 and 220 in textured foils Mo (a) and Ta (b):

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