Resolution of the highly deformed band assignment anomaly in <sup>134</sup>Nd/<sup>131</sup>Ce
E S Paul; C W Beausang; R M Clark; R A Cunningham; P Fallon; S A Forbes; C J Gross; F Hannachi; A N James; A Korichi; P J Nolan; J Simpson; R Wadsworth; J N Wilson; E S Paul; Oliver Lodge Lab., Liverpool Univ., UK; C W Beausang; Oliver Lodge Lab., Liverpool Univ., UK; R M Clark; Oliver Lodge Lab., Liverpool Univ., UK; R A Cunningham; Oliver Lodge Lab., Liverpool Univ., UK; P Fallon; Oliver Lodge Lab., Liverpool Univ., UK; S A Forbes; Oliver Lodge Lab., Liverpool Univ., UK; C J Gross; Oliver Lodge Lab., Liverpool Univ., UK; F Hannachi; Oliver Lodge Lab., Liverpool Univ., UK; A N James; Oliver Lodge Lab., Liverpool Univ., UK; A Korichi; Oliver Lodge Lab., Liverpool Univ., UK; P J Nolan; Oliver Lodge Lab., Liverpool Univ., UK; J Simpson; Oliver Lodge Lab., Liverpool Univ., UK; R Wadsworth; Oliver Lodge Lab., Liverpool Univ., UK; J N Wilson; Oliver Lodge Lab., Liverpool Univ., UK
Журнал:
Journal of Physics G: Nuclear and Particle Physics
Дата:
1993-02-01
Аннотация:
Gamma-rays emitted following the <sup>34</sup>S+<sup>104</sup>Ru reaction have been studied using a preliminary version of the European array, containing 29 Ge detectors, in conjunction with the Daresbury recoil mass separator. Highly deformed bands in <sup>133</sup>Nd (5n reaction channel), <sup>135</sup>Nd (3n), and <sup>131</sup>Ce ( alpha 3n) have been observed. No evidence has been found in mass-selected data for the band previously assigned to <sup>134</sup>Nd (the dominant 4n channel in this reaction) which has 'identical' energies to the <sup>131</sup>Ce band.
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