6533b7d0fe1ef96bd125a49b
RESEARCH PRODUCT
High-Statistics Sub-Barrier Coulomb Excitation of $^{106,108,110}$Sn
L. WernerAndrei AndreyevAndrei AndreyevC. HenrichJoonas KonkiC. StahlC. BernerB. S. Nara SinghT. KröllE. RickertJ. IwanickiAndreas GörgenJoakim CederkällJoakim CederkällClaes FahlanderA. WelkerS. ViñalsM. SchillingD. RosiakT. HabermannM. SaxenaC. BergerOlof TengbladAmar BoukhariC. RaisonJ. ParkGry Merete TvetenG. De AngelisJ. SnällJ. J. Valiente-dobónP. ReiterD. M. CullenJ. G. CubissJ. Díaz OvejasK. ArnswaldA. KnyazevRoman GernhäuserLiam GaffneyDaniel CoxS. SahaA. IllanaP. Van DuppenM. SeidlitzL. BarberA. GawlikA. GawlikP. GolubevMaría José García BorgeMaría José García BorgeG. RainovskiM. StryjczykH. De WitteT. W. JohansenT. BerryRadostina ZidarovaN. Warrsubject
Physics010308 nuclear & particles physicsCoulomb excitation0103 physical sciencesshell modelNuclear Physics - ExperimentCoulomb excitationAtomic physics[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]010306 general physics01 natural sciencesnuclear collectivitydescription
International audience; A Coulomb excitation campaign on $^{106,108,110}$Sn at 4.4–4.5 MeV/u was launched at the HIE-ISOLDE facility at CERN. Larger excitation cross sections and γ-ray statistics were achieved compared to previous experiments at ∼2.8 MeV/u. More precise $(B(E2;0_{1}^{ + } \to 2_{1}^{ + }))$ values, lifetimes of states via the Doppler shift attenuation method, and new $(B(E2;0_{1}^{ + } \to 2_{x}^{ + })), (B(E2;2_{1}^{ + } \to 4_{1}^{ + }))$ and $(Q(2_{1}^{ + }))$ values from the new Miniball data will be obtained and applied to test modern nuclear structure theories.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-07-15 |