7Li(t,n)9Be Hu et al. 2022 An improved determination of the 7Li(t,n)9Be reaction rate via R-matrix analysis. The reaction rate determined in this work is that to the 9Be ground state only. Additionally, since the authors didn’t estimate the uncertainty for the rate, only the median values are given. Link to the paper.
Author: ubattino
25Mg(p,g)26Alg
25Mg(p,g)26Alg Laird et al. 2022 and Battino et al. 2024 A re-evaluation of the 25Mg(p,g)26Alg reaction rate based on updated nuclear data, including experimental underground data from LUNA. The rates provided are a merge of the results of Laird et al. 2022 for temperatures 0.01 < T/GK < 0.7 and of Battino et al. 2024… Continue reading 25Mg(p,g)26Alg
25Mg(p,g)26Alm
25Mg(p,g)26Alm Laird et al. 2022 and Battino et al. 2024 A re-evaluation of the 25Mg(p,g)26Alg reaction rate based on updated nuclear data, including experimental underground data from LUNA. The rates provided are a merge of the results of Laird et al. 2022 for temperatures 0.01 < T/GK < 0.7 and of Battino et al. 2024 for 0.7… Continue reading 25Mg(p,g)26Alm
26Alm(p,g)27Si
26Alm(p,g)27Si Laird et al. 2022 A re-evaluation of the 26Alm(p,g)27Si reaction rate based on updated nuclear data. This reaction is for the isomeric state of 26Al (26Alm). Nevertheless, some caution is required in the usage of this reaction rate, as currently very little resonance and level information is available. In this study, the rate has… Continue reading 26Alm(p,g)27Si
26Alg(p,g)27Si
26Alg(p,g)27Si Laird et al. 2022 A re-evaluation of the 26Alg(p,g)27Si reaction rate based on updated nuclear data. This reaction is for the ground state of 26Al (26Alg). Link to the paper
25Al(p,g)26Si
25Al(p,g)26Si Laird et al. 2022 A re-evaluation of the 25Al(p,g)26SI reaction rate based on updated nuclear data. Link to the paper
17O(a,g)21Ne
17O(a,g)21Ne Frost-Schenk et al 2022 The rate is based on a full evaluation of the known spectroscopic information on 21Ne, the compound nucleus of 17O+alpha, with updated information from the DRAGON measurement of 17O(a,g) and based on updated information from 20Ne(d,p) experiments. Link to the paper
17O(a,n)20Ne
17O(a,n)20Ne Frost-Schenk et al. 2022 The rate is based on a full evaluation of the known spectroscopic information on 21Ne, the compound nucleus of 17O+alpha. Link to the paper
7Be(a,g)11C
7Be(a,g)11C Psaltis et al. 2022 New thermonuclear reaction rate for the 7Be(α,γ)11C reaction. Updated with the measurement of the strengths for the 1110 and 1155 keV resonances using the DRAGON recoil separator in inverse kinematics. For the evaluation of the rate, nuclear data were adopted from Kelley et al. (2011) (TUNL A=11 evaluation) and the… Continue reading 7Be(a,g)11C
13C(a,n)16O
13C(a,n)16O Ciani et al. 2021 This rate comes after the 13C(a,n)16O LUNA measurement, which is the first direct measurement reaching the high energy edge of the Gamow Window (130<E<240 keV). LUNA data cover the energy range 230<Ecm<305 keV corresponding to alpha energy 305<Ea<400 keV. All the points have overall uncertainty lower than 20%. The S… Continue reading 13C(a,n)16O