0000000000613943
AUTHOR
B. Schwartz
Evidence for molecular-cluster states in222Th
The groundstate and a negative parity band of222Th have been observed in the208Pb (180, 4n)222Th reaction by conversion electron and γ-ray spectroscopy identifying the evaporation residues in a recoil separator. The de-excitation pattern is characterized by strong El transitions interconnecting the levels of alternating parity. The yrast levels may be interpreted as a molecularcluster band.
The lowest β-vibrational phonon in the second minimum of 236,238U
Vibrational exci tat ions of f i ss ion isomers have d i r ec t l y been observed for the f i r s t time using conversion electron spectroscopy. A new experimental setup has been developed whidh allows the measurement of prompt conversion electrons from electromagnetic t ransi t ions in delayed coincidence with the f i ss ion decay of the isomer. The large amount of low energy a-electrons was suppressed by special geometrical arrangement of the detectors in the magnetic f i e l d of the solenoid.
Excited states in neutron deficient even-even thorium isotopes (218?A?222)
The nuclei218, 220, 222Th were investigated by conversion electron andγ-ray spectroscopy after compound nucleus reactions of14N with209Bi and16, 18O with208Pb. The intenseγ-background from fission was suppressed by spectroscopy of conversion electrons andγ-rays in coincidence with the evaporation residues or theirα-decay. Level schemes were determined for218Th up toIπ=10+ and for220Th and222Th up toIπ=15−. The observed structure of218Th may be explained in the spherical shell model with residual interaction by two neutron excitation. ForN≧130 completely different level schemes are observed showing very intense, collective electric dipole transitions (B(E1)−10−2 W.u.) with energies of typica…
In-beam spectroscopy of224Th
A rotational band with states of alternating parity has been populated in224Th via the208Pb(18O, 2n) reaction. Spins up to Iπ=10>+ (11−) are identified. Stretched El and E2 transitions compete in the deexcitation, the average ratio of the reduced transition probabilities being B(E1)/B(E2)=(1.5±0.4)×10−6 fm−2. This ratio implies that224Th has one of the largest intrinsic electric dipole moments observed so far.