原子核形变证实壳层结构。
这可能是核形变及核子对效应造成的,试验中的测量误差也不可忽视。
This might be caused by nuclear deformation and nucleon pair effect, and the experimental inaccuracy should not be neglected.
用双能级模型以及与电荷无关的核子-核子相互作用研究核形变随Z,N的变化,得到了与实验大体相符的结果。
The variation of nuclear deformations with Z, N is studied with a two-level model with charge independent nucleon-nucleon interactions. Results obtained agree fairly well with observed ones.
接下来讨论了相对论平均场理论分别对球形核和轴对称形变核的描述和应用。
Next we discuss the application of the RMF theory for the spherical and the axially symmetric deformed nuclei.
就地壳垂直形变分析的实际情况而言,不宜采用高阶的核函数。
For the crustal vertical deformation analysis, higher-order kernel function is not sortable.
利用这些结果,计算了一些核的形变位能随三参数变化的情况,给出了裂变位垒高度,与实验结果符合较好。
According to these results, the deformation potential energies of some nuclei are calculated, the calculated fission barrier heights of some nuclei are in agreement with the experimental results.
最后在经典形核理论的前提下讨论了奥氏体形变对铁素体形核率的影响。
The effect of austenite deformation on nucleation rate of ferrite is discussed with classical nucleation theory as well.
对单粒子能级的计算和分析表明超重核的壳结构是形变和同位旋相关的。
The investigation of single-particle levels shows that the shell structure is deformed and isospin dependent.
将单粒子薛定谔液体理论应用于轴对称形变核的集体运动。
We have applied the theory of the single particle Schrdinger fluid to the nuclear collective motion of axially deformed nuclei.
利用三轴形变的相对论平均场(RMF)理论讨论了A-100核区手征双重带候选核的三轴形变。
The triaxial deformations of candidate nuclei of the chiral doublets bands in A - 100 mass region are investigated in a microscopic and self-consistent triaxial relativistic mean field (RMF) approach.
利用核十六极形变最普遍的参数化形式,通过正则量子化程序,导出了参数空间十六极振动的量子化哈密顿量,分析了十六极形变和振动对于核结构研究的重要意义.。
The quantized Hamiltonian is derived from the general parametral form of the hexadecapole Vibration in the space of parameter, which maybe important to analyze properties of nuclear stature.
结果表明:加入甲基丙烯酸有利于胶粒的稳定和形成规则的核壳胶粒。半连续加料不会形成完全反转的核壳结构,但是,核层在反应过程中由于聚合物簇的迁移会造成形变。
It was shown that the addition of functional monomer methyl acrylic acid could not only improve emulsion stability but also be advantageous to formation of regular core shell structure.
对形变后的试样进行再结晶退火后发现,再结晶形核机制为晶界弓出形核,晶界弓出方向为储存能较高的晶粒。
Upon annealing of the deformed samples, nucleation takes place at the original grain boundaries a nd the nuclei grow into the local region with the highest stored energy.
在原于核巨共振方面介绍了矮共振区的GDR研究,形变核的GDR以及高温转动核的GDR研究。
Brief introductions in the field of GDR studies of pygmy resonance and GDR studies in deformed...
在原于核巨共振方面介绍了矮共振区的GDR研究,形变核的GDR以及高温转动核的GDR研究。
Brief introductions in the field of GDR studies of pygmy resonance and GDR studies in deformed...
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