“LQE”是“Light Quantum Efficiency”的缩写,意思是“光量子效率”


    英语缩略词“LQE”经常作为“Light Quantum Efficiency”的缩写来使用,中文表示:“光量子效率”。本文将详细介绍英语缩写词LQE所代表英文单词,其对应的中文拼音、详细解释以及在英语中的流行度。此外,还有关于缩略词LQE的分类、应用领域及相关应用示例等。
    “LQE”(“光量子效率)释义
  • 英文缩写词:LQE
  • 英文单词:Light Quantum Efficiency
  • 缩写词中文简要解释:光量子效率
  • 中文拼音:guāng liàng zǐ xiào lǜ
  • 缩写词分类:Academic & Science
  • 缩写词领域:Physics

    以上为Light Quantum Efficiency英文缩略词LQE的中文解释,以及该英文缩写在英语的流行度、分类和应用领域方面的信息。
     英文缩略词LQE的扩展资料
  1. High ammonium stress significantly reduced photosynthetic rate, stomatal conductance, actual light quantum efficiency ( F PSII ) and maximum energy conversion efficiency ( Fv / Fm ), but increase initial fluorescence ( F0 ).
        高铵胁迫降低了小麦幼苗光合速率、气孔导度、蒸腾速率、实际光量子效率(LQE)(FPSII)和最大光能转化效率(Fv/Fm),但提高了初始荧光值(Fo)。
  2. 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(LQE)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。
  3. Application of TiO_2 for photocatalytic degradation of Biorefractory of organic compounds has its special superiority. It's photo catalytic degradation efficiency is mainly related to light quantum efficiency.
        TiO2半导体作为光催化剂降解难降解有机污染物有其独特的优势,它的光解效率与光量子效率(LQE)有很大的关系。
  4. The Monte Carlo method was adopted to develop an imaging model. The photon counting images were obtained by the simulations. Furthermore, the time, light intensity and quantum efficiency of the device were changed to observe the effects on the simulation results.
        采用蒙特卡洛方法建立成像仿真模型,通过仿真获得了光子计数图像,分析了时间、光照强度和器件量子效率对成像结果的影响。
  5. Photocatalytic materials, however, there has been the problems of low quantum efficiency and low light energy utilization. To improve the utilization of visible light and the quantum efficiency is the aim of the research of photocatalytic technology.
        但是,光催化材料一直存在光能利用率低和量子效率低的问题,所以提高可见光的利用率和量子效率一直是光催化技术的研究目标。

    上述内容是“Light Quantum Efficiency”作为“LQE”的缩写,解释为“光量子效率”时的信息,以及英语缩略词LQE所代表的英文单词,其对应的中文拼音、详细解释以及在英语中的流行度和相关分类、应用领域及应用示例等。