2012
DOI: 10.1103/physrevc.85.045810
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New measurement of the astrophysically important40Ca(α,γ)44Ti reaction

Abstract: The relatively short-lived radionuclide 44 Ti is of considerable importance for the interpretation of nucleosynthesis in core collapse supernova environments. Production is predominantly through the 40 Ca(α,γ)44 Ti reaction, which has been studied in this work over the energy range Ecm = 2.73 -4.18 MeV, via direct γ counting and the 4π-summing technique, utilizing a previously characterized 12 inch × 12 inch single NaI crystal. The inferred reaction rate is compared here to both current experimental measureme… Show more

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Cited by 24 publications
(37 citation statements)
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“…Moreover, even if the CC method should be involved for a rigorous treatment of reactions on deformed nuclei, it is considered not suited for large-scale calculations for astrophysics [20] and fusion technology as well. Thus, an effective spherical optical potential is yet concerned in this respect, to obtain SM reliable predictions for nuclei heavier than A∼40 and close to the valley of stability [81]. Nevertheless, beyond the present revision of a global OMP, both the involved α-particle OMP and the crosssection predictions will benefit from further CC analysis of specific α-particle induced reactions.…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, even if the CC method should be involved for a rigorous treatment of reactions on deformed nuclei, it is considered not suited for large-scale calculations for astrophysics [20] and fusion technology as well. Thus, an effective spherical optical potential is yet concerned in this respect, to obtain SM reliable predictions for nuclei heavier than A∼40 and close to the valley of stability [81]. Nevertheless, beyond the present revision of a global OMP, both the involved α-particle OMP and the crosssection predictions will benefit from further CC analysis of specific α-particle induced reactions.…”
Section: Discussionmentioning
confidence: 99%
“…Again similar to 42 Ca, at very low energies close above the (α,p) threshold, the (α,p) reaction is further suppressed by the Coulomb barrier in the exit channel, and consequently the total reaction cross section is significantly affected by the (α,γ) cross section. However, average cross sections for the 40 Ca(α,γ) 44 Ti reaction are very rare in literature, and the focus of recent (α,γ) experiments was the astrophysically very important resonance triplet around 4.5 MeV and the properties of resonances [79,80,81,82,83,84,85]. The thick-target data point of Nassar et al [81] leads to an average cross section of 8.0 ± 1.1 µb for the broad energy range from about 2.1 to 4.2 MeV in the center-of-mass system.…”
Section: Camentioning
confidence: 99%
“…For example, the thick (thin) black lines indicate the high and low Monte Carlo rates for a coverage probability of 68% (95%). The blue and green lines show the rates obtained using conventional (i.e., pre-Monte Carlo) methods: (blue) previous rates, 55 where the unobserved lowenergy resonances were disregarded; (green) upper limit obtained if the maximum contribution of the unobserved resonance at E c.m. α = 2373 keV is adopted.…”
Section: B Upper Limits Of Nuclear Physics Input Parametersmentioning
confidence: 99%