6533b870fe1ef96bd12cedef
RESEARCH PRODUCT
Coulomb excitation of 222Rn
P. SpagnolettiP.a. ButlerL.p. GaffneyK. AbrahamsM. BowryJ. CederkällT. ChuppG. De AngelisH. De WitteP.e. GarrettA. GoldkuhleC. HenrichA. IllanaK. JohnstonD.t. JossJ.m. KeatingsN.a. KellyM. KomorowskaJ. KonkiT. KröllM. LozanoB.s. Nara SinghD. O'donnellJ. OjalaR.d. PageL.g. PedersenC. RaisonP. ReiterJ.a. RodriguezD. RosiakS. RotheM. ScheckM. SeidlitzT.m. ShneidmanB. SiebeckJ. SinclairJ.f. SmithM. StryjczykP. Van DuppenS. ViñalsV. VirtanenK. Wrzosek-lipskaN. WarrM. Zielińskasubject
A ≥ 220electromagnetic transitionsnuclear structure & decaysNuclear Physics - Experimentradon[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]ydinfysiikka114 Physical sciencesdescription
International audience; The nature of quadrupole and octupole collectivity in $^{222}$Rn was investigated by determining the electric-quadrupole (E2) and octupole (E3) matrix elements using subbarrier, multistep Coulomb excitation. The radioactive $^{222}$Rn beam, accelerated to 4.23 MeV/u, was provided by the HIE-ISOLDE facility at CERN. Data were collected in the Miniball $\gamma$ -ray spectrometer following the bombardment of two targets, $^{120}$Sn and $^{60}$Ni. Transition E2 matrix elements within the ground-state and octupole bands were measured up to 10 ¯h and the results were consistent with a constant intrinsic electric-quadrupole moment, 518(11) $e$ fm$^2$ . The values of the intrinsic electric-octupole moment for the $0^+ \to 3^-$ and $2^+ \to 5^-$ transitions were found to be respectively $2360^{+300}_{-210}$ $e$ fm$_3$ and $2300^{+300}_{-500}$ $e$ fm$^3$ while a smaller value, $1200^{+500}_{-900}$ $e$ fm$^3$ , was found for the $2^+ \to 1^-$ transition. In addition, four excited non-yrast states were identified in this work via γ -γ coincidences.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2022-02-22 |