The validity of the extended Grodzins product rule (GPR) for higher spins in the ground bands of even Z, even N nuclei of the light mass region of Cd to Zn chain of isotopes is studied. The plots of B(E2, I → I − 2) versus [1/Eγ(I → I − 2)] (Iπ = 4 1+, 61+) provide test of the linear relationship of the two entities. There seems to be a good correlation of the two entities at these higher spin states for most of the nuclei studied here. The deviations from linearity in specific cases are found to be useful for studying the variations in the nuclear structures involved. From these linearity plots, the structural change at higher spin in some nuclei involving subshell gaps, as reflected in the anomalous rise or saturation, leads to further insight into the under lying microscopic structure.

中文翻译：

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A = 80、100 和 130 区域中 41+ 和 61+ 州的 Grodzins 关系

扩展 Grodzins 乘积规则 (GPR) 对偶数基带中更高自旋的有效性Z， 甚至ñ研究了同位素 Cd 到 Zn 链的轻质量区域的原子核。的地块乙(乙2、一世 → 一世 - 2) 与 [1/乙γ(一世 → 一世 - 2)] (一世π = 4 1+, 61+)提供两个实体的线性关系的测试。对于这里研究的大多数原子核，在这些较高自旋态的两个实体似乎有很好的相关性。发现特定情况下的线性偏差有助于研究所涉及的核结构的变化。从这些线性图中，一些涉及亚壳间隙的原子核在较高自旋处的结构变化，如反常上升或饱和所反映的那样，导致进一步了解潜在的微观结构。