因此,常压下壳层模型分子动力学方法为研究物质熔化提供了一个很好的方法。
Therefore, it is shown that shell-model molecular dynamics simulation at constant pressure indeed provides a useful tool for studying the melting temperatures of other materials under high pressures.
本文通过对波函数、原子能量、辐射跃迁等方面的讨论,分析了原子结构壳层模型的近似性。
The approximation of the shell model in atomic structure had been assayed with discussion about the wave funtion, atomic energy and the radiant transition in this paper.
计算表明,以HFS模型为零级近似,对闭合壳层原子基态亦可成功地进行多体计算。
Our calculation shows that, take the HFS model as zeroth order approximation instead, successful many-body calculation on the ground state property of closed shell atoms can also be made.
结果显示:在影响壳内解耦的诸多因素中,起决定性作用的因素为动力学模型和软弱层强度。
The results reveal that dynamical mode and mechanic strength of the weak layer is the decisive factor.
在此模型中,把非均匀等离子体球分成若干个同心等离子体球壳,并且假定每一个同心壳层内等离子体密度均匀分布。
In this model, the nonuniform sphere is modeled by Numbers of concentric spherical shells, and each has a fixed electron density.
采用正交各向异性叠层复合材料加筋圆锥壳模型,对大型汽轮发电机定子端部绕组整体结构的固有振动问题进行了研究。
The inherent frequency and modal testing about end winding of generator stator are introduced, the vibration of end winding on-line monitoring is analyzed, a personal point of view is introduced.
采用正交各向异性叠层复合材料加筋圆锥壳模型,对大型汽轮发电机定子端部绕组整体结构的固有振动问题进行了研究。
The inherent frequency and modal testing about end winding of generator stator are introduced, the vibration of end winding on-line monitoring is analyzed, a personal point of view is introduced.
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