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arxiv: 2409.01393 · v1 · pith:VYBEVIDFnew · submitted 2024-09-02 · ⚛️ nucl-ex

Strength measurement of the E_(α)^(lab) = 830 keV resonance in ²²rm{Ne}(α,n)²⁵rm{Mg} reaction using a stilbene detector

classification ⚛️ nucl-ex
keywords alpharesonancestrengthgammaneutronreactionapproximatelyprocess
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The interplay between the $^{22}$Ne$(\alpha,\gamma)^{26}$Mg and the competing $^{22}$Ne$(\alpha,n)^{25}$Mg reactions determines the efficiency of the latter as a neutron source at the temperatures of stellar helium burning. In both cases, the rates are dominated by the $\alpha$-cluster resonance at 830 keV. This resonance plays a particularly important role in determining the strength of the neutron flux for both the weak and main $s$-process as well as the $n$-process. Recent experimental studies based on transfer reactions suggest that the neutron and $\gamma$-ray strengths for this resonance are approximately equal. In this study, the $^{22}$Ne$(\alpha,n)^{25}$Mg resonance strength has been remeasured and found to be similar to the previous direct studies. This reinforces an 830 keV resonance strength that is approximately a factor of three larger for the $^{22}$Ne$(\alpha,n)^{25}$Mg reaction than for the $^{22}$Ne$(\alpha,\gamma)^{26}$Mg reaction.

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