Astrophysical S-factor of the ^(12)C(α, γ)^(16)O reaction at solar energies

Astrophysical S-factor of the ^(12)C(α, γ)^(16)O reaction at solar energies

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摘要 The astrophysical S-factor of the 4He＋12C radiative capture is calculated in the potential model at the energy range 0.1-2.0 MeV. Radiative capture 12C（α,γ） 16O is extremely relevant for the fate of massive stars and determines if the remnant of a supernova explosion becomes a black hole or a neutron star. Because this reaction occurs at low energies, the experimental measurements are very difficult and perhaps impossible. In this paper, radiative capture of the 12C（α,γ） 16O reaction at very low energies is taken as a case study. In comparison with other theoretical methods and available experimental data, good agreement is achieved for the astrophysical S-factor of this process. The astrophysical S-factor of the 4He＋12C radiative capture is calculated in the potential model at the energy range 0.1-2.0 MeV. Radiative capture 12C（α,γ） 16O is extremely relevant for the fate of massive stars and determines if the remnant of a supernova explosion becomes a black hole or a neutron star. Because this reaction occurs at low energies, the experimental measurements are very difficult and perhaps impossible. In this paper, radiative capture of the 12C（α,γ） 16O reaction at very low energies is taken as a case study. In comparison with other theoretical methods and available experimental data, good agreement is achieved for the astrophysical S-factor of this process.

作者 H.Sadeghi R.Ghasemi H.Khalili

机构地区 Department of Physics

出处《Chinese Physics C》 SCIE CAS CSCD 2014年第8期18-22,共5页 中国物理C（英文版）

关键词 radiative capture the astrophysical S-factor potential model radiative capture, the astrophysical S-factor, potential model

分类号 P14 [天文地球—天体物理] TL822 [天文地球—天文学]

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Astrophysical S-factor of the ^(12)C(α, γ)^(16)O reaction at solar energies

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