Category: p_g

26P(p,g)27S Hou et al. 2023 A theoretical reevaluation based on new information, using the new mass of the involved nuclei in a combination of shell model predictions of the energy structure of 27S. Link to the paper.

42Ti(p,g)43V Hou et al. 2023 Re-evaluated and improved thermonuclear rate based on more complete resonance information and a more accurate direct component, together with recently released nuclear masses data. Link to the paper

19F(p,g)20Ne Zhang et al. 2022 Direct experimental measurement of the 19F(p, γ)20Ne breakout reaction, performed in the China JinPing Underground Laboratory, which offers an environment with an extremely low cosmic-ray-induced background. Link to the paper

25Mg(p,g)26Alg Laird et al. 2022 A re-evaluation of the 25Mg(p,g)26Alg reaction rate based on updated nuclear data. This reaction produces 26Al in the ground state (26Alg). Link to the paper Zhang et al. 2023 Updated thermonuclear 25Mg(p,γ)26Alg reaction rates implementing the results of a complete experimental investigation of the Ec.m.= 92, 130, and 189 keV… Continue reading 25Mg(p,g)26Alg

25Mg(p,g)26Alm Laird et al. 2022 A re-evaluation of the 25Mg(p,g)26Alm reaction rate based on updated nuclear data. This reaction produces 26Al in the isomeric state (26Alm). Link to the paper Zhang et al. 2023 Updated thermonuclear 25Mg(p,γ)26Alm reaction rates implementing the results of a complete experimental investigation of the Ec.m.= 92, 130, and 189 keV… Continue reading 25Mg(p,g)26Alm

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 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 Laird et al. 2022 A re-evaluation of the 25Al(p,g)26SI reaction rate based on updated nuclear data. Link to the paper

22Ne(p,g)23Na Iliadis et al. 2010 Thermonuclear reaction rate obtained using a method based on Monte Carlo techniques. Low rate, median rate and high rate correspond to the 0.16, 0.50 and 0.84 quantiles, respectively, of the cumulative reaction rate distribution. Link to the publication: Nuclear Physics A 841 (2010) 31–250 Williams et al. 2020 This study… Continue reading 22Ne(p,g)23Na

23Na(p,g)24Mg Iliadis et al. 2010 Thermonuclear reaction rate obtained using a method based on Monte Carlo techniques. Low rate, median rate and high rate correspond to the 0.16, 0.50 and 0.84 quantiles, respectively, of the cumulative reaction rate distribution. Link to publication: Nuclear Physics A 841 (2010) 31–250