Activation Radionuclides in the Process of Irradiation of a Niobium Target at the Cyclone 18/9 HC Cyclotrone | Health & Environmental Research Online (HERO)

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Citation
Tags

HERO ID

7850223

Reference Type

Journal Article

Title

Activation Radionuclides in the Process of Irradiation of a Niobium Target at the Cyclone 18/9 HC Cyclotrone

Author(s)

Brinkevich, SD; Brinkevich, DI; Kiyko, AN

Year

2020

Is Peer Reviewed?

Journal

Physics of Atomic Nuclei
ISSN: 1063-7788

Volume

Issue

Page Numbers

1732-1737

DOI

10.1134/S1063778820090045

Web of Science Id

WOS:000626665000021

Abstract

The accumulation of long-lived radionuclides (LRNs) produced in water [O-18]H2O under irradiation at the Cyclone 18/9 HC cyclotron with a niobium target and an input window made of Havar alloy are studied. The most probable nuclear reactions of production and the main nuclear-physics characteristics of LRNs are considered. It is shown that the activity of the majority of LRNs is determined mainly by the dose accumulated by the target. The predominant source of LRNs is an input window made of Havar alloy. The niobium target is the source of the only radionuclide, Nb-92m, with negligibly low activity. In the process of water activation, the Be-7 and, probably, Zn-65 isotopes are produced. The water [O-18]H2O, irradiated at the cyclotron, is a dispersed system. Up to 30% of the activity of cobalt and manganese, as well as similar to 7% of that of chrome, are in the composition of solid particles with sizes of >5 mu m washed out from the input foil of the cyclotron target or produced in the redox processes at high-temperature radiolysis of [O-18]H2O water.

Keywords

cyclotron; Cyclone 18/9 HC; niobium target; [O-18]H2O; activation; radionuclides