2008
DOI: 10.1016/j.nimb.2008.02.021
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Thermal neutron cross-section and resonance integral of the 186W(n,γ)187W reaction

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Cited by 13 publications
(2 citation statements)
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“…Another important observation from the two figures (Figs. 4 and 5) is that some of the generated photoneutrons lie in the thermal and epithermal energy ranges where radiative capture reactions are known to thrive most [22][23][24]. The gamma-ray spectra generated in lead and tungsten due to (n,c) reactions are shown in Figs.…”
Section: Resultsmentioning
confidence: 99%
“…Another important observation from the two figures (Figs. 4 and 5) is that some of the generated photoneutrons lie in the thermal and epithermal energy ranges where radiative capture reactions are known to thrive most [22][23][24]. The gamma-ray spectra generated in lead and tungsten due to (n,c) reactions are shown in Figs.…”
Section: Resultsmentioning
confidence: 99%
“…Here, φ is the thermal neutron flux in the McClellan imaging bay, N is the number of irradiated nuclei in the target under consideration, σ 0 is the appropriate thermal neutron capture cross section, λ is the activation product decay constant, G th is the thermal neutron self-shielding factor for the irradiated target, and g is the Westcott correction factor that accounts for the deviation of the capture cross section from a pure 1/v energy dependence. Typical G th corrective factors for micron-thick targets are in the 0.97-1.0 range and have established calculation methods [41][42][43][44]. From Mughabghab [45], the Westcott correction factor for arsenic is 1.0005, for gold is 1.0054, and for copper is 1.0002.…”
Section: Activation Analysismentioning
confidence: 99%