AbstractKey wordsDOI
Nuclear medicine plays a vital role in modern healthcare, utilising radioisotopes for various purposes. Approximately 95% of these radioisotopes are used for diagnostic imaging, while the remaining 5% contribute to treatment applications. Cobalt-57 radioisotopes are used in medical practise for diagnostics and radiotherapy. The excitation functionsns to produce 57Co radioisotope for medical applications using natural iron (Fe), nickel (Ni),i) and copper (Cu) for the reactions natFe(a,x)57Co, natFe(d,x)57Co, natFe(p,x)57Co, natNi(n,x)57Co, natNi(d,x)57Co, natNi(p,x)57Co, natCu(d,x)57Co, natCu(g,2n) 57Co are performed theoretically by Monte Carlo calculations with the TALYS 1.6 nuclear reaction simulation code. Theoretical calculated results are compared with available experimental data in the EXFORlibrary.
TALYS 1.6 code; 57Co radioisotope, Exitation functions; Medical isotope production.
Susan Shukur Noori
Department of Physics, College of Science, University of Kirkuk
*Corresponding Author: susannoori@uokirkuk.edu.iq
Received 12 Jan. 2025, Accepted 13 Mar. 2025, Published 30 June. 2025.
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