23Na(p,g)24Mg Boeltzig et al. 2019 Evaluation of the nuclear reaction rate based on measurements of the resonance strengths at Ep = 140 and 251keV, which are the main contributors to the reaction rate at 50 ≲ T ≲ 110MK, performed at the Laboratory for Underground Nuclear Astrophysics (LUNA). Two complementary detection approaches were used: high efficiency with… Continue reading 23Na(p,g)24Mg
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20Ne(p,g)21Na
20Ne(p,g)21Na Masha et al. 2023 Measurement of the nuclear reaction direct capture contribution, for the first time below Ec .m .=352 keV, and of the contribution from the Ec .m .=368 keV resonance, which dominates the reaction rate at T =0.03 -1.00 GK. The experiment was performed deep underground at the Laboratory for Underground Nuclear Astrophysics,… Continue reading 20Ne(p,g)21Na
18O(p,g)18F
18O(p,g)18F Best et al. 2019 Direct cross section measurement using a high-efficiency 4π BGO summing detector at the Laboratory for Underground Nuclear Astrophysics (LUNA). The reaction cross section was directly determined for the first time from 140 keV down to 85 keV and the different cross section components have been obtained individually. The previously highly uncertain strength of the… Continue reading 18O(p,g)18F
18O(p,a)15N
18O(p,a)15N Bruno et al. 2019 Nuclear reaction rate based on low-background direct measurement performed at the Laboratory for Underground Nuclear Astrophysics (LUNA) from center of mass energy 𝐸c.m.=340 keV down to 𝐸c.m.=55 keV. The strength of a key resonance at center of mass energy 𝐸𝑟=90 keV was found to be a factor of 10 higher than previously reported. Link to the paper. Nuclear… Continue reading 18O(p,a)15N
17O(p,g)18F
17O(p,g)18F Di Leva et al. 2014 The reaction cross section was measured using both the prompt detection of the emitted γ rays and an activation technique. Measurements were carried out at the Laboratory for Underground Nuclear Astrophysics (Gran Sasso, Italy) where the strongly reduced cosmic-ray-induced background allows for improved sensitivity compared to previous studies. Link… Continue reading 17O(p,g)18F
17O(p,a)14N
17O(p,a)14N Bruno et al. 2016 Thermonuclear reaction rate based on a new direct determination of the ER=64.5 keV resonance strength performed at the Laboratory for Underground Nuclear Astrophysics (LUNA). Link to the paper. Nuclear reaction rate in the MESA format:
14N(p,g)15O
14N(p,g)15O Imbriani et al. 2005 Nuclear reaction rate based on the measurement of the astrophysical S(E) factor for effective center-of-mass energies between E eff = 119 and 367 keV at the LUNA facility. Link to the paper. Nuclear reaction rate in the MESA format:
13C(p,g)14N
13C(p,g)14N Skowronski et al. 2023 Re-evaluated thermonuclear rate based on cross section measurements performed at the Laboratory for Underground Nuclear Astrophysics, down to the lowest energies to date (Ec.m.=60 keV)., hence reaching for the first time the high energy tail of hydrogen burning in the shell of giant stars. Compared with most of the previous literature, these… Continue reading 13C(p,g)14N
12C(p,g)13N
12C(p,g)13N Skowronski et al. 2023 Re-evaluated thermonuclear rate based on cross section measurements performed at the Laboratory for Underground Nuclear Astrophysics, down to the lowest energies to date (Ec.m.=60 keV)., hence reaching for the first time the high energy tail of hydrogen burning in the shell of giant stars. Compared with most of the previous literature, these… Continue reading 12C(p,g)13N
6Li(p,g)7Be
6Li(p,g)7Be Piatti et al. 2020 Re-evaluated thermonuclear rate based on cross section measurements performed at the Laboratory for Underground Nuclear Astrophysics, covering the center-of-mass energy range E=60-350 keV. Link to the paper. Nuclear reaction rate in the MESA format: