190-210Au同位素形态演化及一些重要基态性质的微观研究

Vikesh Kumar, Pankaj Kumar, V. Thakur, S. Thakur, S. K. Dhiman
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引用次数: 0

摘要

在本文中,我们在Hartree-Fock-Bogoliubov模型的框架内研究了190-210Au同位素的核结构性质。在理论计算中,我们使用了UNEDF2和SKP相互作用。研究内容包括形状演变、四极变形参数[公式:见文]、核电四极矩Q(b)、单粒子能级、每核子结合能、核电荷半径、中子均方根半径、质子均方根半径和中子蒙皮厚度。为了分析理论结果的准确性,我们与实验数据和有限范围液滴模型计算进行了对比分析。与实验数据的充分相似性支持了我们的研究。我们利用UNEDF2相互作用观察到190Au、193Au和195Au的扁长形共存。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microscopic study of shape evolution and some important ground state properties of 190–210Au isotopes
In this paper, we have examined the nuclear structural properties of 190–210Au isotopes within the framework of the Hartree–Fock–Bogoliubov Model. For the theoretical calculations, we have used the UNEDF2 and SKP interactions. The studies include the shape evolution, quadrupole deformation parameter [Formula: see text], nuclear electric quadrupole moment Q(b), single-particle energy levels, the binding energy per nucleon, nuclear charge radius, neutron rms radius, proton rms radius and neutron skin thickness. To analyze the accuracy of our theoretical results, we have presented the comparative analysis with experimental data and finite-range droplet model calculations. The adequate resemblance with experimental data is supporting our studies. We observe the oblate-prolate shape coexistence for 190Au, 193Au and 195Au using the UNEDF2 interaction.
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