6533b829fe1ef96bd128a417
RESEARCH PRODUCT
Relative proton and γ widths of astrophysically important states in 30S studied in the β-delayed decay of 31Ar
G. T. KoldsteBertram BlankM.j.g. BorgeJ.a. BrizM. Carmona-gallardoL.m. FraileH.o.u. FynboJ. GiovinazzoJ.g. JohansenA. JokinenB. JonsonT. Kurturkian-nietoJ. H. KuskT. NilssonA. PereaV. PesudoE. PicadoK. RiisagerA. SaastamoinenO. TengbladJ.c. ThomasJ. Van De Wallesubject
26.30.−k 23.40.Hc 27.30.+tAstrophysics::High Energy Astrophysical PhenomenaFOS: Physical sciencesddc:530Experimental nuclear physics[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]Nuclear Experiment (nucl-ex)Nuclear ExperimentNuclear Experimentdescription
Resonances just above the proton threshold in 30S affect the 29P(p,gamma)30S reaction under astrophysical conditions. The (p,gamma)-reaction rate is currently determined indirectly and depends on the properties of the relevant resonances. We present here a method for finding the ratio between the proton and gamma partial widths of resonances in 30S. The widths are determined from the beta-2p and beta-p-gamma decay of 31Ar, which is produced at the ISOLDE facility at the European research organization CERN. Experimental limits on the ratio between the proton and gamma partial widths for astrophysical relevant levels in 30S have been found for the first time. A level at 4688(5) keV is identified in the gamma spectrum, and an upper limit on the proton to gamma width of 0.26 (95 % C.L.) is found. In the two-proton spectrum two levels at 5227(3) keV and 5847(4) keV are identified. These levels are previously seen to gamma decay and upper limits on the gamma to proton width of 0.5 and 9, respectively, (95 % C.L.) are found, where the latter differs from previous calculations.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-03-08 |