Astrophysical SE2 factor of the 12C(α,γ)16O reaction through the 12C(11B,7Li)16O transfer reaction

Abstract

The 12C(α,γ)16O reaction plays a key role in the evolution of stars with masses of M > 0.55 M. The cross-section of the 12C(α,γ)16O reaction within the Gamow window (Ec.m. = 300 keV, T9 = 0.2) is extremely small (about 10-17 barn), which makes the direct measurement in a ground-based laboratory with existing techniques unfeasible. Up until now, the cross-sections at lower energies can only be extrapolated from the data at higher energies. However, two subthreshold resonances, located at Ex = 7.117 MeV and Ex = 6.917 MeV, make this extrapolation more complicated. In this work, the 6.917 MeV subthreshold resonance in the 12C(α,γ)16O reaction was investigated via the 12C(11B,7Li)16O reaction. The experiment was performed using the Q3D magnetic spectrograph at the HI-13 tandem accelerator. We measured the angular distribution of the 12C(11B,7Li)16O transfer reaction leading to the 6.917 MeV state. Based on the FRDWBA analysis, we derived the asymptotic normalization coefficient (ANC) of the 6.917 MeV level in 16O to be (1.10 0.29) × 1010 fm-1, with which the reduced α width was computed to be 18.04.7 keV at the channel radius of 6.5 fm. Finally, we calculated the astrophysical SE2(300) factor of the ground-state transitions to be 46.2 7.7 keV b. The result for the astrophysical SE2(300) factor confirms the values obtained in various direct and indirect measurements and presents an independent examination of the most important data in nuclear astrophysics.