Title: Bismuth activation with quasi-Maxwellian neutrons at kT ∼ 30 keV
Authors: SHOR A.TESSLER M.PLOMPEN ARJANARENSHTAM A.AVIV O.BERKOVITS DBRANDIS M.EISEN Y.ELIYAHU I.FEINBERG G.FRIEDMAN MHALFON S.HULT MIKAELKAIZER B.KIJEL D.KRASA ANTONINKREISEL A.PALCHAN T.PAUL M.PERRY A.SILVERMAN I.VAINTRAUB S.WEISSMAN L.
Citation: PHYSICAL REVIEW C vol. 96 p. 055805
Publisher: AMER PHYSICAL SOC
Publication Year: 2017
JRC N°: JRC109068
ISSN: 2469-9985
URI: http://publications.jrc.ec.europa.eu/repository/handle/JRC109068
DOI: 10.1103/PhysRevC.96.055805
Type: Articles in periodicals and books
Abstract: Bismuth capture of neutrons is the termination point of the s-process cycle of nucleosynthesis in stellar environments. A new measurement is reported here for neutron activation of bismuth with an intense quasi-Maxwellian neutron source at kT ∼ 30 keV. The measurement was performed at the SARAF phase I accelerator facility by bombarding a 1.5-mA proton beam on the liquid-lithium larget. The cross section of the 209Bi(n,γ ) capture reaction leading to the 210Bi ground state was determined by combining β measurements from the 210gBi decay and α and γ from the subsequent 210Po decay, along with detailed Monte Carlo simulations of the 7Li(p,n) reaction kinematics and the activation experimental setup. Deduced Maxwellian averaged cross sections (MACS) for 209Bi(n,γ )210gBi at kT = 30 keV using the ENDF, JEFF, and JENDL databases for the corrections and extrapolations yielded a value of 1.84 ± 0.09 mb. A comparison is made with previous measurements, including time-of-flight (TOF) measurements of the total bismuth capture cross section. Plans for obtaining the MACS for capture to the bismuth-210 metastable state in the reaction 209Bi(n,γ )210mBi are discussed, along with estimates based on our results in comparison with TOF measurements. The bismuth neutron activation cross section is also of importance for design of GenIV reactor coolant and subcritical accelerator driven systems, especially in light of the 3 million year half-life of the 210mBi isomer.
JRC Directorate:Nuclear Safety and Security

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