1. Quantification of radioisotopes produced in 1.4 GeV proton irradiated lead–bismuth eutectic targets
- Author
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J. Vollaire, Dibyasree Choudhury, Thierry Stora, R.S. Augusto, Nabanita Naskar, J.P. Ramos, Elodie Aubert, Melanie Delonca, Susanta Lahiri, Alexandre Dorsival, and Alfredo Ferrari
- Subjects
Physics ,Nuclear and High Energy Physics ,Proton ,010308 nuclear & particles physics ,Lead-bismuth eutectic ,Fission ,Hadron ,Analytical chemistry ,01 natural sciences ,High energy proton ,0103 physical sciences ,Nuclear fusion ,Spallation ,Irradiation ,010306 general physics - Abstract
Six cylindrical lead bismuth eutectic (LBE) targets having fixed diameter of 6 mm and varying lengths of 8–50 mm were irradiated with a 1.4 GeV proton beam at CERN-ISOLDE. Both short-lived ( $$5\hbox { h } {}5\hbox { days}$$ ) radionuclides were identified by off-line $$\upgamma $$ -spectrometry and their activities at the end of bombardment (EOB) were determined. Total 80 $$\upgamma $$ -emitting radionuclides, ranging from $$^{7}\hbox {Be}$$ to $$^{209}\hbox {At}$$ , were identified in the 50 mm long LBE target. The yields of all the radioisotopes were compared with the Monte Carlo Code FLUKA. The spallation reaction was the dominant mode whereas fission induced reactions had no significant contribution. The high energy proton irradiated LBE target may act as a large source of several clinically important and other exotic radionuclides.
- Published
- 2020