Shape Evolution of Nuclei in the Region of (A ≈ 30) Using Covariant Density Functional Theory

Hanaa Bashir, H. Abusara, Shakeb Ahmad
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Abstract

Shape evolution of even–even isotopes of Ne, Mg, Si, S, Ar and Ca in the vicinity of [Formula: see text] mass region of the nuclear chart is studied using covariant density functional theory. It will be studied based on finite range NN-interaction force represented by NL3 ∗ and DD-ME2 and zero finite range NN-interaction force represented by DD-PC1. Both [Formula: see text]Mg and [Formula: see text]Si exhibit shape coexistence and the ground state shape which is found to be both oblate and prolate. The spherical shape is obtained for the Ca isotopes, and for nuclei that have magic neutron numbers [Formula: see text] and 20. The rest of the isotopic chain has only one minimum and alternates between prolate and oblate shapes. Physical properties are calculated at the location of ground state deformation with neutron number ([Formula: see text]) and proton number ([Formula: see text]), such as the binding energy, two-neutron separation energies, proton, neutron and charge radii. In general, a smooth change in these properties is found, except near [Formula: see text] and 20 one can see a sharp change, which reflects the sudden change in the ground state deformation in the neighboring nuclei. A very good agreement is found with the available experimental data, HF and FRDM models
用协变密度泛函理论研究(A≈30)区域核的形状演化
利用协变密度泛函理论研究了Ne、Mg、Si、S、Ar和Ca等元素在核图[公式:见文]质量区附近的偶偶同位素的形状演化。本文将基于NL3 *和DD-ME2表示的有限范围nn -相互作用力和DD-PC1表示的零有限范围nn -相互作用力进行研究。[公式:见文]Mg和[公式:见文]Si均表现出形状共存,基态形状为扁圆形和长条形。对于Ca同位素,以及具有神奇中子数(公式:见文本)和20的原子核,可以得到球形。其余的同位素链只有一个最小值,并在长形和扁形之间交替。利用中子数([公式:见文])和质子数([公式:见文])计算基态变形位置的物理性质,如结合能、双中子分离能、质子、中子和电荷半径等。一般来说,这些性质的变化是平滑的,除了在[公式:见文本]和20附近,人们可以看到一个急剧的变化,这反映了邻近原子核基态变形的突然变化。所得结果与现有实验数据、高频模型和FRDM模型吻合较好
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