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Indirect study of the 12C(α,γ )16O reaction via the 12C(7Li, t)16O transfer reaction
Oulebsir N., Hammache F., Roussel P., G. Pellegriti M., Audouin L. et al
Physical Review C 85 (2012) 035804 - http://hal.in2p3.fr/in2p3-00685577
Physique/Physique Nucléaire Expérimentale
Indirect study of the 12C(α,γ )16O reaction via the 12C(7Li, t)16O transfer reaction
N. Oulebsir1, F. Hammache1, Pierre Roussel ()1, M. G. Pellegriti1, L. Audouin1, D. Beaumel1, A. Bouda, P. Descouvemont, S. Fortier1, L. Gaudefroy2, J. Kiener3, A. Lefebvre-Schuhl3, V. Tatischeff3
1 :  IPNO - Institut de Physique Nucléaire d'Orsay
http://ipnweb.in2p3.fr
CNRS : UMR8608 – IN2P3 – Université Paris XI - Paris Sud
IPN - 15, rue Georges Clemenceau - 91406 ORSAY CEDEX
France
2 :  GANIL - Grand Accélérateur National d'Ions Lourds
http://www.ganil-spiral2.eu
CNRS : UPR3266 – IN2P3 – CEA : DSM/GANIL
Bvd Henri Becquerel - BP 55027 - 14076 CAEN CEDEX 5
France
3 :  CSNSM - Centre de Spectrométrie Nucléaire et de Spectrométrie de Masse
http://www-csnsm.in2p3.fr/
CNRS : UMR8609 – IN2P3 – Université Paris XI - Paris Sud
batiments 104 et 108 - 91405 Orsay Campus
France
CSNSM AN
The 12C(α,γ )16O reaction plays a crucial role in stellar evolution. The rate of this reaction determines directly the 12C-to-16O abundance ratio at the end of the helium burning phase of stars and consequently has a big effect on the subsequent nucleosynthesis and even on the evolution of massive stars. However, despite many experimental studies, the low-energy cross section of 12C(α,γ )16O remains uncertain. The extrapolation of the measured cross sections to stellar energies (E ∼ 300 keV) is made particularly difficult by the presence of the 2+ (Ex = 6.92 MeV) and 1− (Ex = 7.12 MeV) subthreshold states of 16O. To further investigate the contribution of these two subthreshold resonances to the 12C(α,γ )16O cross section, we determine their α-reduced widths via a measurement of the transfer reaction 12C(7Li, t )16O at two incident energies, 28 and 34 MeV. The uncertainties on the determined α-spectroscopic factors and the α-reduced widths were reduced thanks to a detailed distorted-wave Born approximation analysis of the transfer angular distributions measured at the two incident energies. The R-matrix calculations of 12C(α,γ )16O cross section using our obtained α-reduced widths for the 2+ and 1− subthreshold resonances lead to an E1 S factor at 300 keV of 100 ± 28 keV b, which is consistent with values obtained in most of the direct and indirect measurements as well as the NACRE collaboration compilation while the result for the E2 component SE2 (300 keV) = 50 ± 19 keV b disagrees with the NACRE adopted value .

Articles dans des revues avec comité de lecture
2012
Physical Review C (Phys. Rev. C)
Publisher American Physical Society
ISSN 0556-2813 (eISSN : 1089-490X)
85
035804

GANIL 2012-052 A, CSNSM AN
25.70.Hi, 25.40.Lw, 25.55.−e, 26.20.Fj