Ionic Crystal

美 [aɪˈɑːnɪk ˈkrɪstl]英 [aɪˈɒnɪk ˈkrɪstl]
  • 网络离子晶体
Ionic CrystalIonic Crystal
  1. Computer aided computation of ionic crystal lattice energy

    离子晶体晶格能的计算机辅助计算

  2. Ionic Crystal Growth from Melt Monte-Carlo Simulation

    离子晶体从熔态生长&Monte-Carlo模拟

  3. Ionic crystal is mainly formed by ionicity union .

    离子晶体以离子键结合。

  4. Energy Spectrum of Anharmonic Ionic Crystal Lattice in Lightfield A Dynamical Stark Effect

    非简谐性离子晶格在光场中的能谱&动态斯塔克效应

  5. In this paper the characteristics of the concentration of donor atoms in ionic crystal with colloidal particles are discussed .

    本文在前文的基础上进一步讨论了固溶胶粒的生长和施主原子浓度等问题。

  6. Self Trapped Energy of Frenkel Exciton in Ionic Crystal

    离子晶体中Frenkel激子的自陷能

  7. When an ionic crystal dissolves in a solvent , the ions break off from the crystal .

    当离子晶体溶解于溶剂时,离子由晶体脱落。

  8. The study on this subject plays an important role in explaining the phenomena of light transition and transport in the ionic crystal and polar semiconductor .

    极化子的研究对于解释离子晶体和极性半导体的光跃迁过程及输运现象有重要意义。

  9. In this paper , the method of determining the net charge value of ions in ionic crystal is posed by solving the equivalent lattice Dirac equation .

    提出了一种求解离子晶体等价格点的单粒子离子Dirac方程方法,确定离子晶体的点电荷电量。

  10. And then Raman scattering is discussed in the microwave band because of the similarity to the real ionic crystal in an ionic-type phononic crystal .

    基于离子型声子晶体与实际晶格中的相似性,探讨了离子型声子晶体中微波波段的拉曼散射效应。

  11. The Green 's self-consistent function method and the technique of complex ener - gy integration are used to study halogen atoms chemisorption on the NaCl ionic crystal .

    本文采用自洽的格林函数方法和复能积分技术研究了卤素原子在NaCl离子晶体表面上的化学吸附。

  12. Theoretical Research of the Thermal Linewidth of Ionic Energy Levels hi Crystal

    探讨晶体离子能级热宽度的理论问题

  13. The average ionic energy of NaCl crystal was calculated with computer , the function about relationship of the average ionic energy and the crystal size was obtained with data conformation .

    应用计算机计算NaCl晶体的平均离子势能,通过数值拟合,得到平均离子势能与晶体大小关系的函数表达式。

  14. If the ionic radius and the crystal class of the additive elements were different from Ru 4 + 、 Ti 4 + , the amount of them should be controlled .

    对于添加元素的离子半径与Ru4+、Ti4+相差较大,且晶型不相同的元素应控制加入量。