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arxiv: 1909.07012 · v1 · pith:Y243N4EKnew · submitted 2019-09-16 · ⚛️ nucl-ex · nucl-th

Constraining the ¹²C+¹²C astrophysical S-factors with the ¹²C+¹³C measurements at very low energies

classification ⚛️ nucl-ex nucl-th
keywords crossenergiesfusionmodelsectionastrophysicaldatapredicted
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We use an underground counting lab with an extremely low background to perform an activity measurement for the $^{12}$C+$^{13}$C system with energies down to $E\rm_{c.m.}$=2.323 MeV, at which the $^{12}$C($^{13}$C,$p$)$^{24}$Na cross section is found to be 0.22(7) nb. The $^{12}$C+$^{13}$C fusion cross section is derived with a statistical model calibrated using experimental data. Our new result of the $^{12}$C+$^{13}$C fusion cross section is the first decisive evidence in the carbon isotope systems which rules out the existence of the astrophysical S-factor maximum predicted by the phenomenological hindrance model, while confirming the rising trend of the S-factor towards lower energies predicted by other models, such as CC-M3Y+Rep, DC-TDHF, KNS, SPP and ESW. After normalizing the model predictions with our data, a more reliable upper limit is established for the $^{12}$C+$^{12}$C fusion cross sections at stellar energies.

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