Where do we find these ionic crystals?
我们如何得到离子晶体?
One type is the schottky defect in ionic crystals.
在离子晶体中有一类是斯考特库缺陷。
Whereas, ceramics, ionic crystals will resist until they shatter.
但是,陶瓷,离子晶体就会抵抗外力,只到它们破碎。
Then model can be used to calculate the infrared spectra of ionic crystals as well.
与多种典型离子晶体红外光谱的实测结果进行对比。
We started with this hypothesis of octet stability and I'm talking about properties of ionic crystals.
我们从八隅律的稳定性假设开始,我们讨论到了离子晶体的性质。
There isa weak bulk coupling but a strong surface coupling between electrons and phonons for many ionic crystals.
有不少极性半导体,电子与体纵光学声子的耦合弱,但与表面光学声子的耦合强。
A new semi-experimentally zero-temperature equation of state with analytical form for ionic crystals is derived in this paper.
本文导出一种新的半经验的离子晶体的零温物态方程,它具有解析形式。
And, what we will do next day is we will look at the consequences of such an energetic set up, and rationalize that when ions form, by necessity we must form ionic crystals.
明天我们要做的是,观察一下,这样一个充满活力的创造的结果,然后合理地解释要想得到离子,我们必须先得到离子晶体。
Some ionic compounds form crystals that in-corporate a definite proportion of molecules of water as well as the ions of the compound itself.
一些离子化合物形成含一定比例的水分子和离子化合物的晶体。
It shows that the high Tc superconductors are the crystals with both ionic and covalent properties.
结果表明,高温超导材料属于具有部分离子性和部分共价性的晶体。
The relationship between the crystallographic structure and ionic migration of lithium niobate single crystals are microscopically analyzed and investigated by their crystallographic characteristics.
利用铌酸锂晶体的结晶学结构特征,从微观角度上分析和研究了铌酸锂晶体的结构与离子迁移之间的关系规律。
The relationship between the crystallographic structure and ionic migration of lithium niobate single crystals are microscopically analyzed and investigated by their crystallographic characteristics.
利用铌酸锂晶体的结晶学结构特征,从微观角度上分析和研究了铌酸锂晶体的结构与离子迁移之间的关系规律。
应用推荐