论文标题
从降低过渡概率$ b(e2)\ uparrow $($ 0^+_ 1 \至2^+_ 1 $)的过渡中的过渡概率$ b(e2)\ uparrow $中的四极变形参数($β$)的计算
Calculation of quadrupole deformation parameter ($β$) from reduced transition probability $B(E2)\uparrow$ for ($0^+_1\to 2^+_1$) transition at (even-even) $^{62-68}$Zn isotopes
论文作者
论文摘要
在这项工作中,已经计算出激发能量水平,降低的过渡概率,$ b(e2)\ uparrow $,固有的四极矩和变形参数,以$^{62-68} $ Zn同位素(n = 32,34,36和38)计算。 Nushellx代码已应用于(FP壳)核的所有能量状态。 Shell-model calculations for the zinc isotopes have been carried out with active particles distributed in the lp$_{3/2}$, 0f$_{5/2}$ and lp$_{1/2}$ orbits outside doubly-magic closed "56Ni"core nucleus.通过使用(F5P)模型空间和(F5PVH)相互作用,已经获得了理论结果并与可用的实验结果进行了比较。激发能量值B(E2),固有四极矩(Q $ _0 $)和变形参数($β_2$)完全与实验值一致。同样,对于尚未通过实验确定和确定的实验值的角动量和平等,已经确认并确定了能量水平。另一方面,已经预测了$^{62-68} $ Zn同位素的一些新能量水平和电动过渡概率,这些同位素以前在实验信息中尚不清楚。
In this work the excited energy levels, reduced transition probabilities, $B(E2)\uparrow$, intrinsic quadrupole moments and deformation parameters have been calculated for $^{62-68}$Zn isotopes with neutrons (N=32,34,36 and 38 ). Nushellx code has been applied for all energy states of (fp-shell) nuclei. Shell-model calculations for the zinc isotopes have been carried out with active particles distributed in the lp$_{3/2}$, 0f$_{5/2}$ and lp$_{1/2}$ orbits outside doubly-magic closed "56Ni"core nucleus. By using (f5p) model space and (f5pvh) interaction, the theoretical results have been obtained and compared with the available experimental results. The excited energies values, electric transition probability B(E2), intrinsic quadrupole moment (Q$_0$) and deformation parameters ($β_2$) have been appeared at complete agreement with the experimental values. As well as, the energy levels have been confirmed and determined for the angular momentum and parity of experimental values which have not been well established and determined experimentally. On the other hand, it has been predicted some of the new energy levels and electric transition probabilities for the $^{62-68}$Zn isotopes under this study which were previously unknown in experimental information.
