2010
DOI: 10.1103/physrevc.82.061309
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Observation of a new high-spin isomer inPd94

Abstract: A second γ -decaying high-spin isomeric state, with a half-life of 197 (22)ns, has been identified in the N = Z + 2 nuclide 94 Pd as part of a stopped-beam Rare Isotope Spectroscopic INvestigation at GSI (RISING) experiment. Weisskopf estimates were used to establish a tentative spin/parity of 19 − , corresponding to the maximum possible spin of a negative parity state in the restricted (p 1/2 , g 9/2 ) model space of empirical shell model calculations. The reproduction of the E3 decay properties of the isome… Show more

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Cited by 20 publications
(12 citation statements)
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“…In all four cases, the half-lives determined from this experiment are smaller than those in Ref. [47], but consistent with other literature values [10,21,[48][49][50][51][52]. One publication [53], reports consistently longer half-lives for these isomers, possibly pointing towards some systematic effect in that analysis.…”
Section: A Half-lives and Transition Strengths Of The Known Isomerssupporting
confidence: 88%
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“…In all four cases, the half-lives determined from this experiment are smaller than those in Ref. [47], but consistent with other literature values [10,21,[48][49][50][51][52]. One publication [53], reports consistently longer half-lives for these isomers, possibly pointing towards some systematic effect in that analysis.…”
Section: A Half-lives and Transition Strengths Of The Known Isomerssupporting
confidence: 88%
“…Enhanced effective charges account for nucleon excitations in the p 3/2 and f 5/2 orbits that cannot be calculated in the reduced pg model space, but the (15 + ) isomer is a pure state composed of g 9/2 holes and thus requires no extra compensation. This argument is supported by the negligible difference in the calculated B(E2) value in the extended f 5/2 ,p,g 9/2 model space [48], as reported in Ref. [20].…”
Section: Transition Energy Of the (15 + ) Isomer In 96 Agsupporting
confidence: 58%
“…Calculations marked GF were performed in the standard (p 1/2 , g 9/2 ) proton (π ) space, assuming a − ) are systematically calculated too high. This deficiency is partly cured in the calculations marked as FPG, were the GF model space was extended by including π (f 5/2 , p 3/2 ) orbitals, with realistic interactions derived from the charge-dependent Bonn (CD-Bonn) nucleon-nucleon potential [9,10]. The low-spin states in the FPG calculations are shifted too much down, though, which indicates that the pairing contribution should be tuned.…”
Section: Discussion and Shell Model Calculationsmentioning
confidence: 99%
“…The experimentally most likely E1 decays could not be calculated because E1 transitions are forbidden in this model space. Two different sets of effective charges were used for electric transitions which were found to be reasonable in such calculations [9,10] Tables II and III. The M2 strength is low because an M2 transition in the adopted model space can result only from the g 9/2 → f 5/2 transition and the f 5/2 orbital is deep in the shell so its content in the wave functions is marginal. If the 685 keV transition were of type M2, the experimental reduced transition strength would be almost four orders of magnitude larger than the shell model value.…”
Section: Discussion and Shell Model Calculationsmentioning
confidence: 99%
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