2007
DOI: 10.1103/physrevc.75.065803
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AstrophysicalSfactor of theHe3(α,

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Cited by 129 publications
(109 citation statements)
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“…3. It agrees very well both in absolute normalization and energy dependence with the recent experimental results obtained at the Weizmann Institute [16], the LUNA collaboration [17], at Seattle [18] and by the ERNA collaboration [19].…”
Section: Capture Cross Sectionsupporting
confidence: 87%
“…3. It agrees very well both in absolute normalization and energy dependence with the recent experimental results obtained at the Weizmann Institute [16], the LUNA collaboration [17], at Seattle [18] and by the ERNA collaboration [19].…”
Section: Capture Cross Sectionsupporting
confidence: 87%
“…The dominant 7 Be production mechanism is through the capture reaction, 3 He(α, γ) 7 Be; a reaction that has been studied in detail both experimentally [15] and theoretically [16]. The cross section is known to ∼ 3% uncertainty.…”
Section: Thementioning
confidence: 99%
“…For this purpose, 3 He( α, γ ) 7 Be reaction rate evaluated by Kontos et al [32] is used, which is within 1.5% of the slightly updated de Boer et al [33] and Takács et al [34] rates. The excitation function adopted in that work closely tracks the LUNA data on 3 He( α, γ ) 7 Be [35,36] , which are the only recent experimental data on this reaction at energies below 300 keV, most relevant for BBN. 6 Li reaction from the present work.…”
Section: Thermonuclear Reaction Rate and Astrophysical Implicationsmentioning
confidence: 99%
“…[ cm 3 Therefore, by using the Kontos et al rate in essence the 6 Li/ 7 Li isotopic ratio is determined by the ratio of two LUNA experimental S-factors in similar setups: The present 2 H( α, γ ) 6 Li data on 6 Li production, and the previous 3 He( α, γ ) 7 Be data [35,36] on 7 Be → 7 Li production. Using the Kontos et al rate [32] , 7 Li/H = (5.2 ± 0.4) ×10 −10 is found, 15% higher than when using CF88.…”
Section: Thermonuclear Reaction Rate and Astrophysical Implicationsmentioning
confidence: 99%
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