FSU相互作用中N=20和28壳隙和双粒子-双空穴态的演化

R. Lubna, K. Kravvaris, K. Kravvaris, S. Tabor, V. Tripathi, E. Rubino, A. Volya
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引用次数: 4

摘要

壳层模型的FSU $spsdfp$交叉壳层相互作用成功地拟合了$sd$壳层核的广泛的主要是入侵者负宇称态。本文报道了应用FSU相互作用系统地追踪$0f_{7/2}$和$1p_{3/2}$轨道的有效单粒子能量的相对位置,从正常有序的低洼态到“反转岛”(IoI)的演化,以及$0f_{7/2}$质子和中子耦合到$7 \hbar$的最大自旋的大范围激发态的行为。在质子数约为13以上,$0f_{7/2}$轨道位于$1p_{3/2}$之下,这被认为是正常的排列,但在$Z = 10$到$12$之间,轨道系统地交叉。计算很好地再现了IoI内原子核构型的2p2h - 0po0h反转,它们再现了绝对结合能和质子数接近中子数时向正常有序的跃迁。同时也证明了$1p_{3/2}$中子对在IoI中的重要作用。计算很好地解释了0、1或2个独立的$sd$核子与对齐的$\pi 0f_{7/2}$ - $\nu 0f_{7/2}$对自旋排列的完全排列态的能量,并很好地再现了它们随$A$和对齐的$sd$核子数的系统变化。本文的结果为FSU相互作用在不久的将来对更多奇异核的预测能力提供了希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evolution of the N=20 and 28 shell gaps and two-particle-two-hole states in the FSU interaction
The FSU $spsdfp$ cross-shell interaction for the shell model was successfully fitted to a wide range of mostly intruder negative parity states of the $sd$ shell nuclei. This paper reports the application of the FSU interaction to systematically trace out the relative positions of the effective single-particle energies of the $0f_{7/2}$ and $1p_{3/2}$ orbitals, the evolution from normally ordered low-lying states to the "Island of Inversion" (IoI), and the behavior of a wide range of excited states with a $0f_{7/2}$ proton and neutron coupled to maximum spin of $7 \hbar$. Above a proton number of about 13 the $0f_{7/2}$ orbital lies below that of $1p_{3/2}$, which is considered normal ordering, but systematically at $Z = 10$ to $12$ the orbitals cross. The calculations reproduce well the 2p2h - 0p0h inversion in the configurations of nuclei inside the IoI, they reproduce the absolute binding energies and the transition to normal ordering as the proton number approaches that of the neutrons. The important role of $1p_{3/2}$ neutron pairs in the IoI is also demonstrated. The calculations account well for the energies of the fully aligned states with 0, 1, or 2 individual $sd$ nucleon aligned in spin with the aligned $\pi 0f_{7/2}$ - $\nu 0f_{7/2}$ pair and reproduce well their systematic variation with $A$ and number of aligned $sd$ nucleons. The results presented in this paper give hope for the predictive power of the FSU interaction for more exotic nuclei to be explored in near future.
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