Shell model foundations of the proxy-SU(3) symmetry: Nucleon pairs creating nuclear deformation

HNPS Advances in Nuclear Physics Pub Date : 2022-10-17 DOI:10.12681/hnps.3538

D. Bonatsos, A. Martinou, I. E. Assimakis, Spyridon K. Peroulis, S. Sarantopoulou, N. Minkov

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Abstract

Abstract Proxy-SU(3) symmetry is an approximation scheme extending the Elliott SU(3) algebra of the sd shell to heavier shells, in order to make possible the application of the symmetry properties in cutting down the size of the required calculations. When introduced in 2017, the approximation had been justified by calculations carried out within the Nilsson model, an elementary shell model based on a 3-dimensional harmonic oscillator with cylindrical symmetry, applicable to deformed nuclei. Recently our group managed to map the cartesian basis of the Elliott SU(3) model onto the spherical shell model basis, fully clarifying the approximations used within the proxy-SU(3) scheme and paving the way for using the proxy-SU(3) approximation in shell model calculations for heavy nuclei. As a by-product, the relation of the 0[110] Nilsson pairs used in proxy-SU(3) to the earlier used de Shalit-Goldhaber pairs and Federman-Pittel pairs has been clarified. The connection between the proxy-SU(3) scheme and the spherical shell model has also been worked out in the original framework of the Nilsson model, with identical results.

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代理- su(3)对称的壳层模型基础:产生核变形的核子对

Proxy-SU(3)对称是将sd壳层的Elliott SU(3)代数扩展到较重壳层的一种近似格式，目的是为了使对称性质的应用能够减少所需的计算量。在2017年引入时，通过在尼尔森模型中进行的计算证明了这一近似是正确的，尼尔森模型是一种基于具有圆柱对称的三维谐振子的基本壳层模型，适用于变形核。最近，我们的团队成功地将Elliott SU(3)模型的笛卡尔基映射到球壳模型基上，充分阐明了proxy-SU(3)方案中使用的近似，并为在重核壳模型计算中使用proxy-SU(3)近似铺平了道路。作为副产品，proxy-SU(3)中使用的0[110]Nilsson对与先前使用的de Shalit-Goldhaber对和Federman-Pittel对之间的关系得到了澄清。proxy-SU(3)格式也在Nilsson模型的原始框架下与球壳模型建立了联系，得到了相同的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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HNPS Advances in Nuclear Physics

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