6533b81ffe1ef96bd1276df1
RESEARCH PRODUCT
Measurement of key resonance states for the P30(p,γ)S31 reaction rate, and the production of intermediate-mass elements in nova explosions
A. KankainenP.j. WoodsH. SchatzT. Poxon-pearsonD.t. DohertyV. BaderT. BaugherD. BazinB.a. BrownJ. BrowneA. EstradeA. GadeJ. JoséA. KontosC. LangerG. LotayZ. MeiselF. MontesS. NojiF. NunesG. PerdikakisJ. PereiraF. RecchiaT. RedpathR. StrobergM. ScottD. SeweryniakJ. StevensD. WeisshaarK. WimmerR. Zegerssubject
Astrophysics::High Energy Astrophysical PhenomenaAstrophysics::Solar and Stellar Astrophysicslcsh:Physicslcsh:QC1-999description
We report the first experimental constraints on spectroscopic factors and strengths of key resonances in the P30(p,γ)S31 reaction critical for determining the production of intermediate-mass elements up to Ca in nova ejecta. The P30(d,n)S31 reaction was studied in inverse kinematics using the GRETINA γ -ray array to measure the angle-integrated cross-sections of states above the proton threshold. In general, negative-parity states are found to be most strongly produced but the absolute values of spectroscopic factors are typically an order of magnitude lower than predicted by the shell-model calculations employing WBP Hamiltonian for the negative-parity states. The results clearly indicate the dominance of a single 3/2â resonance state at 196 keV in the region of nova burning Tâ0.10â0.17 GK , well within the region of interest for nova nucleosynthesis. Hydrodynamic simulations of nova explosions have been performed to demonstrate the effect on the composition of nova ejecta.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-02-16 | Physics Letters B |