自旋-晶格驰豫(spin-lattice relaxation):亦称纵向弛豫,核由高能级返回到低能级时 能量被转移至周围 分子而转变成热运动,称自旋-晶格驰豫。
基于14个网页-相关网页
铜的自旋晶格驰豫数据 Cu spin-lattice relaxation data
From the perspective of the film and the substrate, the change of surface energy、work function and lattice relaxation of different film thickness were calculated and their effects on the film growth were compared.
对不同厚度的自由Pb薄膜的计算表明,表面能、功函数和薄膜附近两层的晶格驰豫随厚度的变化是一种9ML大周期叠加在2ML小周期之上的振荡模式,与实验和其他计算结果一致;揭示了量子尺寸效应在调制薄膜生长中的作用。
参考来源 - 陶瓷材料RBaCo·2,447,543篇论文数据,部分数据来源于NoteExpress
并求得它们对应的束缚能,晶格驰豫能和光离化能。
Moreover, we also deduced their correspondent values of lattice relaxation energy and optical ionization energy.
在考虑存在失配位错的情况下,计算了驰豫晶格失配、曲率半径和失配位错密度。
In the case of considering the misfit dislocation, relaxed lattice mismatch, the radius of curvature and density of misfit dislocation were calculated.
在线性驰豫应变假设下给出了应变超晶格纵向原子间距的几何模型。
A model of linear strain relaxation is proposed to obtain the interatomic longitudinal spacings of the strained superlattice.
应用推荐