可能的原子核形状及硬度演化性质:基于能量面计算的系统分析

孟海燕; 王华磊; 柴清祯; 张莎; 杨婕; 柳敏良

doi:10.11804/NuclPhysRev.34.03.481

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可能的原子核形状及硬度演化性质:基于能量面计算的系统分析

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孟海燕, 王华磊, 柴清祯, 张莎, 杨婕, 柳敏良. 2017: 可能的原子核形状及硬度演化性质:基于能量面计算的系统分析, 原子核物理评论, 34(3): 481-487. doi: 10.11804/NuclPhysRev.34.03.481

引用本文:

MENG Haiyan, WANG Hualei, CHAI Qingzhen, ZHANG Sha, YANG Jie, LIU Minliang. 2017: Possible Properties on Nuclear Shape and Stiffness Evolution: A Systematic Analysis Based on Nuclear-Energy-Surface Calculations, Nuclear Physics Review, 34(3): 481-487. doi: 10.11804/NuclPhysRev.34.03.481

Citation:

MENG Haiyan, WANG Hualei, CHAI Qingzhen, ZHANG Sha, YANG Jie, LIU Minliang. 2017: Possible Properties on Nuclear Shape and Stiffness Evolution: A Systematic Analysis Based on Nuclear-Energy-Surface Calculations, Nuclear Physics Review, 34(3): 481-487. doi: 10.11804/NuclPhysRev.34.03.481

可能的原子核形状及硬度演化性质:基于能量面计算的系统分析

郑州大学物理工程学院,郑州,450001
中国科学院近代物理研究所,兰州,730000

Possible Properties on Nuclear Shape and Stiffness Evolution: A Systematic Analysis Based on Nuclear-Energy-Surface Calculations

摘要: 基于(β2,γ,β4)形变空间下对-形变自洽的原子核能量面计算方法,系统研究分析了50＜Z＜82区偶偶核的形状及硬度演化特征.计算的平衡形变与其它理论预言及存在的实验值进行了对比.从相应的形变势能曲线提取了与β2及γ相关的硬度参数Cβ,Cγ,这与实验观测到的低位β及γ振动带信息相符.还简要讨论了转动情况下的硬度演化,例如基于蜈蚣型E-GOS曲线,表明存在不可忽略的振动效应.
- 核形状 /
- 硬度参数 /
- 核能量面计算
Abstract: Nuclear shape and stiffness evolutions in even-even nuclei with 50 ＜ Z ＜ 82 are systematically analyzed in terms of the pairing-deformation self-consistent nuclear-energy-surface calculation in (β2,γ,β4)deformation space.Calculated equilibrium deformations are presented and compared with other theoretical predictions and available experimental data.The stiffness parameters Cβ and Cγ respectively related to quadrupole deformationsβ2 and γ are determined from the deformation energy curves,which are consistent with the observed low-lying β and/or γ bands.The stiffness evolution under rotation along the yrast line is briefly discussed,e.g.,on the basis of the centipidelike E-GOS curves,showing an unnegligible vibration effect.

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可能的原子核形状及硬度演化性质:基于能量面计算的系统分析

郑州大学物理工程学院,郑州,450001
中国科学院近代物理研究所,兰州,730000

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摘要: 基于(β2,γ,β4)形变空间下对-形变自洽的原子核能量面计算方法,系统研究分析了50＜Z＜82区偶偶核的形状及硬度演化特征.计算的平衡形变与其它理论预言及存在的实验值进行了对比.从相应的形变势能曲线提取了与β2及γ相关的硬度参数Cβ,Cγ,这与实验观测到的低位β及γ振动带信息相符.还简要讨论了转动情况下的硬度演化,例如基于蜈蚣型E-GOS曲线,表明存在不可忽略的振动效应.

English Abstract

Possible Properties on Nuclear Shape and Stiffness Evolution: A Systematic Analysis Based on Nuclear-Energy-Surface Calculations

郑州大学物理工程学院,郑州,450001
中国科学院近代物理研究所,兰州,730000

Keywords:

Abstract: Nuclear shape and stiffness evolutions in even-even nuclei with 50 ＜ Z ＜ 82 are systematically analyzed in terms of the pairing-deformation self-consistent nuclear-energy-surface calculation in (β2,γ,β4)deformation space.Calculated equilibrium deformations are presented and compared with other theoretical predictions and available experimental data.The stiffness parameters Cβ and Cγ respectively related to quadrupole deformationsβ2 and γ are determined from the deformation energy curves,which are consistent with the observed low-lying β and/or γ bands.The stiffness evolution under rotation along the yrast line is briefly discussed,e.g.,on the basis of the centipidelike E-GOS curves,showing an unnegligible vibration effect.

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可能的原子核形状及硬度演化性质:基于能量面计算的系统分析

Possible Properties on Nuclear Shape and Stiffness Evolution: A Systematic Analysis Based on Nuclear-Energy-Surface Calculations

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可能的原子核形状及硬度演化性质:基于能量面计算的系统分析

English Abstract

Possible Properties on Nuclear Shape and Stiffness Evolution: A Systematic Analysis Based on Nuclear-Energy-Surface Calculations

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