Rotational bands beyond the Elliott model

Ryan Zbikowski, C. Johnson, A. McCoy, M. Caprio, P. Fasano
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引用次数: 3

Abstract

Rotational bands are commonplace in the spectra of atomic nuclei. Inspired by early descriptions of these bands by quadrupole deformations of a liquid drop, Elliott constructed a discrete nucleon representations of $\mathrm{SU}(3)$ from fermionic creation and annihilation operators. Ever since, Elliott's model has been foundational to descriptions of rotation in nuclei. Later work, however, suggested the symplectic extension $\mathrm{Sp}(3,R)$ provides a more unified picture. We decompose no-core shell-model nuclear wave functions into symmetry-defined subspaces for several beryllium isotopes, as well as $^{20}$Ne, using the quadratic Casimirs of both Elliott's $\mathrm{SU}(3)$ and $\mathrm{Sp}(3,R)$. The band structure, delineated by strong $B(E2)$ values, has a more consistent description in $\mathrm{Sp}(3,R)$ rather than $\mathrm{SU}(3)$. {In particular, we confirm previous work finding in some nuclides strongly connected upper and lower bands with the same underlying symplectic structure.
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艾略特模型之外的旋转带
旋转带在原子核光谱中很常见。受到液滴四极变形对这些能带的早期描述的启发,Elliott从费米子产生和湮灭算子中构造了一个离散的核子表示$\ mathm {SU}(3)$。从那时起,艾略特的模型就成为描述原子核旋转的基础。然而,后来的工作表明,辛扩展$\ mathm {Sp}(3,R)$提供了一个更统一的图像。我们利用Elliott的$\ mathm {SU}(3)$和$\ mathm {Sp}(3,R)$的二次卡西米尔函数,将几种铍同位素以及$^{20}$Ne的无核壳型核波函数分解为对称定义的子空间。由强$B(E2)$值描绘的能带结构在$\ mathm {Sp}(3,R)$中比在$\ mathm {SU}(3)$中有更一致的描述。{特别是,我们证实了先前的工作发现,在一些核素中,具有相同的底层辛结构的上下带强连接。
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