1996
DOI: 10.1139/p96-090
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Analysis of the excitation function of alpha-particle-induced reactions on natural silver

Abstract: Excitation functions of the reactions 107Ag[(α, n); (α, 2n); (α, αn); (α, α2n)] and,109Ag[(α, 2n); (α, 3n); (α, 4n); (α, α3n); (α, α4n)] were investigated up to 70 MeV by the stacked foil activation technique and Ge(Li) gamma-ray spectroscopy method. Since the natural silver used as the target has two odd mass stable isotopes of abundance 51.83% (107Ag) and 48.17% (109Ag), their activation in some cases gives the same residual nucleus through different reaction channels, but with very different Q values. In su… Show more

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Cited by 14 publications
(9 citation statements)
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“…The new data in Fig. 9 show a good continuation to the previous results of Takács et al [10], lower than the data of Patel et al [8] and show a good agreement with the data of Wasilewsky et al [12], in spite of their energy shift. Both TENDL-2017 and EMPIRE 3.2 give completely different trends and values.…”
Section: Nat Ag(αx) 106m Ag Nuclear Reactionsupporting
confidence: 83%
“…The new data in Fig. 9 show a good continuation to the previous results of Takács et al [10], lower than the data of Patel et al [8] and show a good agreement with the data of Wasilewsky et al [12], in spite of their energy shift. Both TENDL-2017 and EMPIRE 3.2 give completely different trends and values.…”
Section: Nat Ag(αx) 106m Ag Nuclear Reactionsupporting
confidence: 83%
“…[291] The nine experimental datasets available in the literature are shown in Fig. 133 [178,278,[293][294][295][296][297][298][299] together with the TENDL calculations. Six datasets were rejected (Wasilevsky et al [295] (discrepant values), Misaelides and Münzel [294] (energy steps too large, can not be controlled), Chaubey et al [296] (values too high), Fukushima et al [293] (values Fig.…”
Section: Cd(d2n) 110m Inmentioning
confidence: 99%
“…Six datasets were rejected (Wasilevsky et al [295] (discrepant values), Misaelides and Münzel [294] (energy steps too large, can not be controlled), Chaubey et al [296] (values too high), Fukushima et al [293] (values Fig. 133 Nine experimental datasets for the 107 Ag(α,n) 110m In reaction available in the literature [178,278,[293][294][295][296][297][298][299], and TENDL calculations Fig. 134 Three selected experimental datasets for the 107 Ag(α,n) 110m In reaction [178,278,299] with the Padé fit (L = 9, N = 32, χ 2 = 1.94, solid line) and estimated total uncertainties in percentages, including 4% systematic uncertainty (dashed line, right-hand scale) too low at higher energy), Patel et al [297] (values too low), Takács et al [298] (values too low)), and the remaining three sets were used in the statistical fitting procedure.…”
Section: Cd(d2n) 110m Inmentioning
confidence: 99%
“…Especially for the medically important 111 In, most frequently produced though the 112 Cd(p,2n) reaction with 24-25 MeV incident proton energy, the 109 Ag(α,2n) could be a real alternative production route, taking into account that the 111 In can be produced with high yields and low impurity levels. A large number of measurements were done for the 109 Ag(α,2n) 111 In reaction: Patel et al [44] Hasbroek et al [45], Ismail et al [46], Wasilewsky et …”
Section: Ag+αmentioning
confidence: 99%