exciting light meaning in English
激发光
激活光
激励光
Examples
- The effects of exciting light , heat treatment temperatures on the photoluminescence , polarized pl properties of zno powder / thin film were investigated
重点研究了激发波长、热处理温度对荧光与偏振荧光光谱的影响,较好的窄化了zno粉体的荧光光谱。 - In the experiment of microtubule , the mechanics of depolymerization of tubulin after treatment is being studied using this system , and a phenomenon of microtubule breaking after being irradiated by exciting light was studied in detail
本论文工作的创新点: 1 、应用光谱分析的方法,从物理学的角度宏观地研究了激光与生物组织的作用规律,探讨了临床上弱激光照射治疗的机理。 - The zno particles are excited by ultraviolet ( uv ) exciting light ( 365 nm ) , showing two photoluminescence ( pl ) peaks / bands , centered at 2 . 90 ev ( blue ) and 2 . 23 ~ 2 . 41 ev ( yellow - green ) , respectively . the intensity of the yellow - green band was reduced after the product had been annealed in n2 and o2 at 350 c for 1h . ultraviolet visible absorption spectrum shows that the zno absorbs ultraviolet light intensely
对于复合h ps zno结构的发光机制,认为是纳米h价带中的电子在紫外光的激发下,跃迁到zno的导带,从而处于激发态,由于多孔硅的导带比氧化锌的导带低, zno导带中处于激发态的电子很快跃窜到多孔硅的导带,然后再与h价带中的空穴发生复合,发出可见光。 - It was found that the luminescence spectra of zno could be optimized by simply varying the exciting light and heat - treatment temperat ures . blue emission ( 463 nm ) was obtained when the zno was heated under 300 ? and the vertical - polarized exciting light ( 310 nm ) was used . polarization - sensitive measurements revealed an obvious anisotropy in the pl spectra of the wurtize zno nanoparticles
在优化zno薄膜荧光光谱的过程中得到了很强的463nm单峰兰色荧光,考察了薄膜的偏振荧光随温度的变化,采用310nm的垂直偏振光激发经300热处理的薄膜,可以在463nm处获得很好的荧光偏振比0 . 87 。 - Comparisons of led and laser induced blood fluorescence spectra indicate that the latter can show partly fine structure of blood cells . the absorption of the fluorophores to the wavelength of exciting light has definite selectivity , which depend on energy level structure and state of the fluorophores
对led光和激光诱导血细胞荧光光谱比较研究的结果表明,用激光激发时可以显现血细胞荧光光谱的部分精细结构;血细胞中的荧光团对激发光波长具有一定的选择性,这种选择是由其自身的能级结构和状态所决定的。