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Literature DB >> 35967889

Excitation function of ⁵⁴Fe(p,α)⁵¹Mn from 9.5 MeV to 18 MeV.

Wilson Lin¹, John T Wilkinson², Kendall E Barrett¹, Todd E Barnhart¹, Matthew Gott³, Kaelyn V Becker¹, Adam M Clark², Anthony Miller², Gunnar Brown², Molly DeLuca², Robert Bartsch², Graham F Peaslee², Jonathan W Engle^1,4.

Abstract

Excitation function of the 54Fe(p,α)51Mn reaction was measured from 9.5 to 18 MeV E 0 , p + by activating a foil stack of 54Fe electrodeposited on copper substrates. Residual radionuclides were quantified by HPGe gamma ray spectrometry. Both 51Mn (t 1/2 = 46.2 min, 〈 E β + 〉 = 963.7 keV , I β + = 97 % ; E γ = 749.1 keV, I γ = 0.265%) and its radioactive daughter, 51Cr (t 1/2 = 27.704d, E γ = 320.1 keV, I γ = 9.91%), were used to indirectly quantify formation of 51Mn. Results agree within uncertainty to the only other measurement in literature and predictions of default TALYS theoretical code. Final relative uncertainties are within ±12%.

Entities: Chemical

Keywords: Excitation function; Gamma spectrometry; Gamma spectroscopy; Manganese-51; Positron emission tomography; Tandem Van de Graaff accelerator

Year: 2022 PMID： 35967889 PMCID： PMC9371937 DOI： 10.1016/j.nuclphysa.2022.122424

Source DB: PubMed Journal: Nucl Phys A ISSN： 0375-9474 Impact factor: 1.558

Keyword Cloud
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6 in total

Excitation function of 54Fe(p,α)51Mn from 9.5 MeV to 18 MeV.

1. Excitation functions of proton-induced reactions on natFe and enriched 57Fe with particular reference to the production of 57Co.

2. Radiochemical isolation method for the production of 52gMn from natCr for accelerator targets.

3. Cyclotron production and radiochemical separation of 55Co and 58mCo from 54Fe, 58Ni and 57Fe targets.

4. Preparation and in vivo characterization of 51MnCl2 as PET tracer of Ca2+ channel-mediated transport.