Recoil Atom Yield in 100Mo(p, x)99Mo During 28 MeV Proton Irradiation of Nanosize Molybdenum Layers

According to the Szilard–Chalmers effect, 99 Mo recoil atoms can be obtained in nuclear reactions and recorded in a collector. Knowledge of the dependence of the yield of 99 Mo atoms on the thickness of the molybdenum layer is necessary for their efficient collection. The yield of 99 Mo recoil atoms...

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Bibliographic Details
Published in:Atomic energy (New York, N.Y.) N.Y.), 2019-07, Vol.126 (3), p.197-201
Main Authors: Artyukhov, A. A., Zagryadskii, V. A., Kravets, Ya. M., Kuznetsova, T. M., Latushkin, S. T., Men’shikov, L. I., Ryzhkov, A. V., Udalova, T. A., Chuvilin, D. Yu
Format: Article
Language:English
Subjects:
Atomic properties
Cyclotrons
Dependence
Energy industry
Hadrons
Heavy Ions
Irradiation
Magnetron sputtering
Molybdenum
Nuclear Chemistry
Nuclear Energy
Nuclear Physics
Nuclear power plants
Nuclear reactions
Physics
Physics and Astronomy
Proton irradiation
Protons
Recoil atoms
Sapphire
Thickness
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Summary:According to the Szilard–Chalmers effect, 99 Mo recoil atoms can be obtained in nuclear reactions and recorded in a collector. Knowledge of the dependence of the yield of 99 Mo atoms on the thickness of the molybdenum layer is necessary for their efficient collection. The yield of 99 Mo recoil atoms from molybdenum nanolayers in the nuclear reaction 100 Mo( p , x ) 99 Mo was measured as a function of the thickness of the nanolayer. Nanolayers of metallic molybdenum were fabricated by magnetron sputtering on sapphire plates. The measurements were performed after the nanolayers were irradiated by 28 MeV protons in the U-150 cyclotron. The yield of 99 Mo recoil atoms for 38–205 nm thick nanolayers was 65–8%. It was found that the maximum 99 Mo yield obtains with molybdenum layer thickness 80 ± 5 nm. It was found that the free path of 99 Mo recoil atoms in native metallic molybdenum is equal to 34 ± 9 nm.
ISSN:1063-4258
1573-8205
DOI:10.1007/s10512-019-00536-y