Physics – Nuclear Physics
Scientific paper
Feb 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997nupha.621..153b&link_type=abstract
Nuclear Physics A, v. 621, p. 153-160.
Physics
Nuclear Physics
Scientific paper
Because of the critical importance of the 12C/16O ratio resulting from helium burning to the later evolution of massive stars, R-matrix fits have been made to the available angular distribution data from radiative α-capture and elastic α-scattering on 12C to estimate the total 12C(α, γ)16O rate at stellar energies. Largely primary data, i.e. energy-dependent differential cross sections, are used in the analysis with all relevant partial waves being fitted simultaneously (surface fits). It is shown that while the E1 part of the reaction is well constrained by a recent experiment on the β-delayed α-particle decay of 16N only upper limits can be placed on the E2 ground state transition which we take conservatively as SE2 (300) < 140 keV b. Monte-Carlo simulations were subsequently carried out to explore what kind of future data could lead to better restrictions on SE2(300). We find that improved elastic scattering data may be the best candidate for such restrictions while improving S(300) with new radiative capture data seems to be much more difficult.
Azuma R. E.
Barnes Charles A.
Buchmann Lothar
Humblet J.
Langanke Karlheinz
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