6533b7d5fe1ef96bd1264f60

RESEARCH PRODUCT

Thermonuclear reactionS30(p,γ)Cl31studied via Coulomb breakup ofCl31

Ralf PlagRalf PlagJ. BenlliureO. LepyoshkinaT. Le BleisT. Le BleisT. Le BleisA. KlimkiewiczA. KlimkiewiczG. IckertA. Kelic-heilThomas NilssonF. WamersF. WamersH. SimonMichael HeilV. PaninV. PaninKristian LarssonK. SümmererThomas AumannThomas AumannY. AksyutinaO. ErshovaO. ErshovaBjörn JonsonJ. V. KratzRoy Crawford LemmonJ. TaylorC. WimmerC. WimmerS. SchwertelR. KrückenR. KrückenJ. MarganiecUshasi Datta PramanikHans GeisselD. RossiD. RossiK. BoretzkyRene ReifarthRene ReifarthB. StreicherR. KulessaS. B. NovoK. MahataMarielle ChartierRoman GernhäuserW. ProkopowiczHåkan T JohanssonHåkan T JohanssonJ. R. VignoteChristoph LangerChristoph LangerD. CortinaP. Z. WuV. Ricciardi

subject

PhysicsNuclear physicsReaction rateNuclear and High Energy PhysicsThermonuclear fusionProtonNucleosynthesisNuclear structureCoulomb excitationAtomic physicsrp-processExcitation

description

Coulomb breakup at high energy in inverse kinematics of proton-rich Cl-31 was used to constrain the thermonuclear S-30(p,gamma)Cl-31 capture reaction rate under typical Type I x-ray burst conditions. This reaction is a bottleneck during rapid proton-capture nucleosynthesis (rp process), where its rate depends predominantly on the nuclear structure of Cl-31. Two low-lying states just above the proton-separation threshold of S-p = 296( 50) keV in Cl-31 have been identified experimentally using the (RB)-B-3-LAND setup at the GSI Helmholtzzentrum fur Schwerionenforschung GmbH. Both states are considered to play a key role in the thermonuclear S-30( p,gamma)Cl-31 capture reaction. Excitation energies of the first J(pi) = 1/2(+), 5/2(+) states have been extracted and the reaction rate for proton capture on S-30 under typical rp-process temperatures has been investigated.

yearjournalcountryeditionlanguage
2014-03-20Physical Review C
https://doi.org/10.1103/physrevc.89.035806