Investigation of the level structure of 90Nb nucleus using the shell model

IF 0.7 4区 物理与天体物理 Q4 CHEMISTRY, INORGANIC & NUCLEAR
Nukleonika Pub Date : 2019-12-01 DOI:10.2478/nuka-2019-0014
Wu Yi-Heng, Yang Dong, Ma Ke-yan, Luo Peng-Wei
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引用次数: 1

Abstract

Abstract Shell model calculations have been carried out for 90Nb nucleus with the model space in which the valence protons occupy the f5/2, p3/2, p1/2, and g9/2 orbitals and the valence neutrons occupy the p1/2, g9/2, d5/2, and g7/2 orbitals. According to the calculated results, the negative parity is from the contribution of the proton of the f5/2, p3/2, and p1/2 orbits. The moderate spin states of 90Nb are mainly due to the excitation of protons from the f5/2 and p3/2 orbits to the p1/2 and g9/2 orbits across the Z = 38 subshell closure, and the high spin states arise from the excitation of a single neutron from the g9/2 orbit into the d5/2 orbit across the N = 50 shell closure.
用壳层模型研究90Nb原子核的能级结构
摘要对90Nb核进行了壳层模型计算,模型空间中价质子占据f5/2、p3/2、p1/2和g9/2轨道,价中子占据p1/2、g9/2、d5/2和g7/2轨道。根据计算结果,负宇称来自f5/2、p3/2和p1/2轨道的质子的贡献。90Nb的中等自旋态主要是由于质子从f5/2和p3/2轨道激发到穿过Z=38亚壳层闭合的p1/2和g9/2轨道,而高自旋态则是由于单个中子从g9/2轨激发到穿过N=50壳层闭合的d5/2轨道。
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
Nukleonika
Nukleonika 物理-无机化学与核化学
CiteScore
2.00
自引率
0.00%
发文量
5
审稿时长
4-8 weeks
期刊介绍: "Nukleonika" is an international peer-reviewed, scientific journal publishing original top quality papers on fundamental, experimental, applied and theoretical aspects of nuclear sciences. The fields of research include: radiochemistry, radiation measurements, application of radionuclides in various branches of science and technology, chemistry of f-block elements, radiation chemistry, radiation physics, activation analysis, nuclear medicine, radiobiology, radiation safety, nuclear industrial electronics, environmental protection, radioactive wastes, nuclear technologies in material and process engineering, radioisotope diagnostic methods of engineering objects, nuclear physics, nuclear reactors and nuclear power, reactor physics, nuclear safety, fuel cycle, reactor calculations, nuclear chemical engineering, nuclear fusion, plasma physics etc.
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