1992
DOI: 10.1016/0092-640x(92)90003-z
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Intrinsic structures and associated rotational bands in deformed even-even nuclei of the actinide region

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Cited by 43 publications
(34 citation statements)
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“…But the 0 + excitations in the thorium isotopes are observed to be strongly populated in e-decay and in the (p, t) reaction, which excludes their intepretation as B-vibrations [2]. The usual fl band has not yet been identified experimentally in the very heavy nuclei, and the importance of its location was emphasized [3,41. Another unexpected excitation is a second K ~ =2 + band observed in both zeaTh and 23~ ~200 keV above the )~-vibrational band, strongly decaying to the ),-band by E0 transitions.…”
Section: * Permanent Address: Institute For Nuclear Research 252028 mentioning
confidence: 98%
See 1 more Smart Citation
“…But the 0 + excitations in the thorium isotopes are observed to be strongly populated in e-decay and in the (p, t) reaction, which excludes their intepretation as B-vibrations [2]. The usual fl band has not yet been identified experimentally in the very heavy nuclei, and the importance of its location was emphasized [3,41. Another unexpected excitation is a second K ~ =2 + band observed in both zeaTh and 23~ ~200 keV above the )~-vibrational band, strongly decaying to the ),-band by E0 transitions.…”
Section: * Permanent Address: Institute For Nuclear Research 252028 mentioning
confidence: 98%
“…Experimental information on higherlying collective excitations exists for 228Th and 23~ with some interesting but not yet fully understood features [2]. The lowest positive-parity excited bands are K ~ = 0 + and 2 + bands, with bandhead energies of E(O+)/E(2+) = 832/969 keV in 228Th and 635/781 keV in 23~…”
Section: * Permanent Address: Institute For Nuclear Research 252028 mentioning
confidence: 99%
“…The pure E0 character of the 259.9-keV line implies that it connects two 0 + states. The possibilitites that it feeds the ground state or de-excites the 721.2 keV state, must be rejected, since a l o w lying 0 + state would mean a dramatic departure from the systematics of the 0 + states in the region [19,20], and also: (even if weakly populated) it would have been likely found in the 232 Th(d, 6 Li) 228 Ra reaction [8,20]. Furthermore, in the case of a 0 Further experimental studies are needed to clarify the placement of this transition.…”
Section: Electron Conversion Coecientsmentioning
confidence: 99%
“…Fermi energies for proton and neutron systems were chosen in order to give the correct number of particles in each of these systems and were p = 42.760 MeV, n = 49.750 MeV for 227 Ra and p = 43.220 MeV, n = 48.985 MeV for 223 Ra. All parameters involved in the long-range residual interactions of H QPM were determined by the energies of quadrupole and octupole core vibrational energies, which in the case of 227 Ra were taken from 226 Ra [36,37]: E 0+ = 650 keV, E 2+ = 846 keV (E 2+ is not available in 226 Ra, thus it was taken from 228 Ra), E 0 = 254 keV, and E 1 = 1049 keV. In the case of 223 Ra they were taken as an average of the available data for 222 Ra and 224 Ra [37]: E 0+ = 914 keV, E 2+ = 966 keV, E 0 = 234 keV, and E 1 = 1054 keV.…”
Section: Parameters Of the Calculationsmentioning
confidence: 99%
“…All parameters involved in the long-range residual interactions of H QPM were determined by the energies of quadrupole and octupole core vibrational energies, which in the case of 227 Ra were taken from 226 Ra [36,37]: E 0+ = 650 keV, E 2+ = 846 keV (E 2+ is not available in 226 Ra, thus it was taken from 228 Ra), E 0 = 254 keV, and E 1 = 1049 keV. In the case of 223 Ra they were taken as an average of the available data for 222 Ra and 224 Ra [37]: E 0+ = 914 keV, E 2+ = 966 keV, E 0 = 234 keV, and E 1 = 1054 keV. The results of the QPM calculations are presented in Tables 7 and 8 for 227 Ra and 223 Ra, respectively.…”
Section: Parameters Of the Calculationsmentioning
confidence: 99%