2021
DOI: 10.1103/physrevc.104.064615
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Measurement and modeling of proton-induced reactions on arsenic from 35 to 200 MeV

Abstract: 72 As is a promising positron emitter for diagnostic imaging that can be employed locally using a 72 Se generator. However, current reaction pathways to 72 Se have insufficient nuclear data for efficient production using regional 100-200 MeV high-intensity proton accelerators. In order to address this deficiency, stacked-target irradiations were performed at LBNL, LANL, and BNL to measure the production of the 72 Se/ 72 As PET generator system via 75 As(p,x) between 35 and 200 MeV. This work provides the mos… Show more

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Cited by 14 publications
(3 citation statements)
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References 112 publications
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“…Collaboration has been established between Brookhaven, Lawrence-Berkeley and Los Alamos National Laboratories to help address the data needs within the US DOE Isotope Program for emerging isotope production pathways, and measure (p,x) reactions relevant to isotope production from threshold to 200 MeV for both the primary isotopes of interest and their impurities. Results from the TREND collaboration have been published for 75 As(p,x) 68 Ge, 72 Se [31] and 93 Nb(p,x) 90 Mo [32,33] and their impurities, and results for the nat Tl(p,x) 202 Pb, nat Sb(p,x) 119m,121m Te, and nat La(p,x) 134 Ce reaction campaigns will be submitted shortly for publication. Each of these five campaigns have yielded measurements of 25-40 unique product channels spanning proton energies from 0 to 200 MeV, resulting in a significant amount of high-fidelity and internally consistent reaction data suitable for identifying and correcting deficiencies in the reaction modelling of these channels.…”
Section: Nuclear Data Needs For High Energy (Px) Isotope Production A...mentioning
confidence: 99%
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“…Collaboration has been established between Brookhaven, Lawrence-Berkeley and Los Alamos National Laboratories to help address the data needs within the US DOE Isotope Program for emerging isotope production pathways, and measure (p,x) reactions relevant to isotope production from threshold to 200 MeV for both the primary isotopes of interest and their impurities. Results from the TREND collaboration have been published for 75 As(p,x) 68 Ge, 72 Se [31] and 93 Nb(p,x) 90 Mo [32,33] and their impurities, and results for the nat Tl(p,x) 202 Pb, nat Sb(p,x) 119m,121m Te, and nat La(p,x) 134 Ce reaction campaigns will be submitted shortly for publication. Each of these five campaigns have yielded measurements of 25-40 unique product channels spanning proton energies from 0 to 200 MeV, resulting in a significant amount of high-fidelity and internally consistent reaction data suitable for identifying and correcting deficiencies in the reaction modelling of these channels.…”
Section: Nuclear Data Needs For High Energy (Px) Isotope Production A...mentioning
confidence: 99%
“…This modelling work has also revealed the potential dangers involved in the evaluation of a single reaction channel of interest: regardless of adopting a descriptive or predictive evaluation process, evaluations of experimental data based on a single reaction channel lead inherently to false minima for other channels that arise as a consequence of the constrained nature of the total cross section. This has a direct impact on neighboring reaction channels (such as for the production of contaminant radionuclides), and affects calculations in the planning of a production target [31,32]. Model-based evaluations should be performed simultaneously on as many strongly-fed reaction channels as possible, including notable contaminants, to ensure that the recommended cross sections are physically selfconsistent.…”
Section: Nuclear Data Needs For High Energy (Px) Isotope Production A...mentioning
confidence: 99%
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