Comparative study between IVBM and IBM-2 models to calculate the energy levels for 162-16870Yb isotopes

IF 0.4 Q4 PHYSICS, NUCLEAR

Nuclear Physics and Atomic Energy Pub Date : 2024-03-25 DOI:10.15407/jnpae2024.01.036

D. Nasef, E.T. Ellafi, S.M. El-Kadi

引用次数: 0

Abstract

This study uses the interaction vector boson model (IVBM) to identify negative parity band (NPB) energy levels in the 162-16870Yb isotopes series. Simultaneously, the interacting boson model-2 (IBM-2) and the IVBM model were used to determine the ground state band (GSB) energy levels of the same isotopes. The ratios RI/2 and R(I+2)/I are calculated and E-GOS (E-gamma over spin) curves are plotted to determine the properties of these nuclei in the GSB. The isotopes 16270Yb, 16470Yb, and 166-16870Yb have different symmetries. Studies have shown that the IVBM model is more consistent with experimental results than the IBM-2 model, especially at high energy levels. This study provides a valuable comparison of results from different models, improving our understanding of the energy levels and properties of these isotopes.

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IVBM 和 IBM-2 模型计算 162-16870Yb 同位素能级的比较研究

本研究利用相互作用矢量玻色子模型（IVBM）来确定 162-16870Yb 同位素系列中的负奇偶带（NPB）能级。同时，还利用相互作用玻色子模型-2（IBM-2）和 IVBM 模型确定了相同同位素的基态带（GSB）能级。计算了 RI/2 和 R(I+2)/I 的比率，并绘制了 E-GOS（E-伽玛大于自旋）曲线，以确定这些原子核在基态带（GSB）中的特性。同位素 16270Yb、16470Yb 和 166-16870Yb 具有不同的对称性。研究表明，IVBM 模型比 IBM-2 模型更符合实验结果，尤其是在高能级。这项研究对不同模型的结果进行了有价值的比较，增进了我们对这些同位素能级和性质的了解。

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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来源期刊

Nuclear Physics and Atomic Energy PHYSICS, NUCLEAR-

CiteScore

0.70

自引率

33.30%

发文量

审稿时长

19 weeks

期刊介绍： The journal Nuclear Physics and Atomic Energy presents the publications on Nuclear Physics, Atomic Energy, Radiation Physics, Radioecology, Engineering and Methods of Experiment. The journal includes peer-reviewed articles which are completed works containing new results of theoretical and experimental researches and are of interest for the scientists, postgraduate students, engineers and for the senior students.