quantum crystal

英 [ˈkwɒntəm ˈkrɪstl] 美 [ˈkwɑːntəm ˈkrɪstl]

量子晶体

化学



双语例句

  1. Transmission Spectra in the Double Quantum Well of One-dimensional Photonic Crystal
    具有双量子阱结构的一维光子晶体透射谱特性研究
  2. The external quantum efficiency of photon crystal ( PHC) structured LED is calculated.
    对光子晶体结构的外量子效率进行了计算。
  3. The electric structures of double-chain of hydroxy polyacene were studied by quantum chemistry crystal orbital CNDO/ 2 method, and considered the hydrogen-binding interaction of hydroxy-polyacene.
    采用量子化学晶体轨道CNDO/2方法,在考虑了羟基代聚并苯氢键作用的基础上对其双链模型的电子结构进行系列的计算和讨论。
  4. Enhanced external quantum efficiency of light emitting diodes by fabricating two-dimensional photonic crystal sapphire substrate with holographic technique
    全息技术制作二维光子晶体蓝宝石衬底提高发光二极管外量子效率
  5. Considering the theories of quantum and crystal chemistry, discuss the theories, structure and applications of some instruments.
    由量子化学及结晶化学等理论为基础,讨论一些分析仪器的原理,构造及应用。
  6. The results indicate that the phonon-model is consistent with the model of vacancy wave quantum in a perfect crystal. The relationship between specific heat at low temperature and concentration of single vacancy is obtained.
    结果表明,声子模型与完美晶体的空位波量子模型一致,得到了晶体低温比热与单空位浓度的关系。
  7. Investigating on Quantum Interference of Spontaneous Emission Spectrum from a Λ Three-level Atom in Photonic Crystal
    光子晶体内三能级∧型原子自发辐射量子相干的理论研究
  8. A Quantum Explanation of the Double Refraction and Optic Rotation of Crystal
    晶体双折射、旋光的量子解释
  9. Preparation and quantum size effect of nano WS_2 lubricating crystal
    纳米WS2润滑晶体的制备与量子尺寸效应
  10. The formation of a photonic quantum well structure by sandwiching a graded-index photonic crystal between two symmetrical constant-index photonic crystals is demonstrated.
    在对称的均匀电介质材料光子晶体体系中插入另一折射率渐变的光子晶体可构成光量子阱结构。
  11. A physical model for calculating cation stabilization energies in chrome spinels has been proposed. Based on classical and quantum mechanics, this model embodies the crystal field theory and the molecular orbital theory.
    本文提出了一种计算铬尖晶石阳离子占位稳定能的物理模型,它的理论基础是经典力学和量子力学,这种模式包括了晶体场理论和分子轨道理论。
  12. The relative stabilities of intermediate compounds and titanium monoxide were examined deeply with quantum chemistry, crystal field and chemical bond theory.
    运用量子化学、晶体场及化学成键理论,深入分析了中间化合物及一氧化钛的相对稳定性。
  13. Quantum image potential of inside surface electrons in polar crystal and its effective potential of polarons
    极性晶体内表面电子的量子像势及其极化子的有效势
  14. The UV luminescence is attributed to defects in Si-O network, while the visible light is relate to the quantum confinement effect in crystal β-SiC phase.
    紫外光的发光原因是氧化硅中的缺陷导致的,可见光的发光原因与β-SiC纳米晶的量子尺寸效应有关。
  15. In this paper, several methods of developing light quantum efficiency are discussed such as lessening size of TiO_2 crystal and modifying its structure and assist-photocatalysis.
    本文主要从提高光量子效率着手,用改变TiO2的晶体结构、TiO2的晶体改性及外加物质辅助光催化等方法,分析提高光催化降解性能的途径。
  16. For the samples grown at different temperatures, shift of UV emission peaks is attributed to the effect of the quantum confinement due to different crystal grain sizes.
    随着生长温度的变化UVE峰位蓝移与晶粒尺寸不同引起的量子限域效应相关。
  17. The effects of quantum measurement on an excited Λ-type atom in three-dimensional photonic crystal
    量子测量对三维光子晶体中∧型原子动力学性质的影响
  18. We use full quantum theory to investigate the decay distribution of atoms in one-dimensional photonic crystal and the quantum interference property of a V-type three-level atom placed between two parallel plates.
    采用全量子理论,本文研究了一维光子晶体中原子自发发射的寿命分布和置于两平板介质之间的V型三能级原子的量子干涉性质。
  19. The reversions in configuration of two chiral carbon atoms at the same time are discussed by means of the results of the quantum chemical calculations as well as its crystal structure.
    通过晶体结构和量子化学计算的结果对该化合物中两个手性碳原子同时发生构型翻转进行了讨论。
  20. Quantum Chemistry Calculations of Dielectric Properties of Urea Crystal
    尿素晶体介电性能的量子化学计算
  21. Firstly, quantum theory is introduced to liquid crystal microcosmic theory.
    首先把量子理论引入液晶微观理论中。
  22. The polarized absorption spectrum and quantum states of er~ ( 3+) in single crystal liyf_4
    LiYF4晶体中Er~(3+)的偏振吸收光谱及其量子态
  23. Magnetism the quantum scale effect of crystal particle will make the coercive force of film increase;
    磁晶微粒的量子尺度效应将使薄膜的矫顽力增加;
  24. Quantum Chemical Studies of IR Spectrum and IR Absorption Edge of Urea Crystal
    尿素分子红外光谱与晶体红外吸收截止波长的量子化学研究
  25. Factors that will influence the quantum efficiency of photocatalysts includes crystallinity, size, crystal defects and band structure of photocatalytic material.
    影响光催化效率的因素包括:半导体自身的结晶度,尺寸,缺陷,能带结构。
  26. The internal quantum efficiency is depending on the micro-structure characteristics of the internal MQW crystal materials. The internal quantum efficiency is one of the most important points to have breakthrough in the research of the solid state lighting technology.
    内量子效率则取决于LED的内部多量子阱微观结构及晶体材料特性和质量,内量子效率的研究是目前LED发光效率研究的切实而有效的突破点。
  27. A novel all-optical switch of quantum dot photonic crystal ( QD-PC) based on InAs/ GaAs semiconductor heterostructure is proposed.
    我们基于InAs/GaAs半导体异质结构提出一种新颖的量子点光子晶体全光开关。
  28. Quantum dots are the crystal that between the molecules and block material, the electronic structure is different from discrete molecular level and the continuous band structure of the materials, but it is special band structure between them.
    量子点是介于分子与块体材料之间的晶体,其电子结构与分子的离散能级以及块体材料的连续能带都不相同,而是介于两者之间的特殊的能带结构。
  29. Quantum dots and photonic crystal fiber are two kinds of important synthetic materials in the international research recently. Thereinto, Quantum dots incarnate the controlling effect for the electronic bandgap, and photonic crystal fibers incarnate the controlling effect for the photonic bandgap.
    量子点和光子晶体光纤是目前处于国际研究前沿的两种人造材料,前者体现了对电子能带的控制作用,而后者则体现了对光子能带的控制作用。
  30. For high energy electron diffraction in a crystal, we obtain the wave function by Bloch wave method. The quantum trajectories then present the formation process of electron channeling in crystal.
    对于晶体中的高能电子衍射,我们采用Bloch波方法计算得到了高能电子在晶体中衍射的波函数,量子轨迹则显示了电子在晶体中通道的形成过程。