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RESEARCH PRODUCT
Spectroscopy of Rn, Ra and Th isotopes using multi-nucleon transfer reactions
P. FallonM. A. DeleplanqueF. S. StephensP.m. JonesT. LauritsenN. AmzalG. D. JonesR. JulinP. BhattacharyyaB. FornalR. BrodaJ. F. SmithA. O. MacchiavelliR. W. MacleodJ. F. C. CocksS. J. AsztalosI. Y. LeePaul GreenleesD. HawcroftR. M. DiamondC. T. ZhangR. M. ClarkK. J. CannP. A. Butlersubject
Nuclear reactionPhysicsNuclear and High Energy PhysicsIsotopePhononNuclear TheoryNuclear physicsElectric dipole momentPhysics::Atomic PhysicsNuclear ExperimentNucleonSpin (physics)SpectroscopyIsotopes of thoriumdescription
Abstract High-spin spectroscopy of Rn, Ra and Th isotopes has been performed. The nuclei have been populated using multi-nucleon transfer reactions involving a 232 Th target and a 136 Xe projectile. This type of reaction offers the only mechanism for populating high-spin states in many of these nuclei. Interleaving bands with opposite parities have been observed to high spin ( ∼28 h ) in 218,220,222 Rn, 222,224,226,228 Ra and 228,230,234 Th. A systematic study of the rotational alignment properties of octupole bands in radon, radium and thorium isotopes reveals information concerning the role of the octupole phonon and the onset of stable octupole deformation with increasing rotational frequency. Measurement of the magnitude of the intrinsic electric dipole moment, D 0 , provides additional information concerning the strength of octupole interactions in these nuclei.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1999-01-01 | Nuclear Physics A |