1) light induced space charge field
光致空间电荷场
2) Space charge field
空间电荷场
1.
In addition, it is shown that a light-induced space charge field of the ord.
5%)掺铁铌酸锂的总空间电荷场的大小可以看到,在连续光所能达到的光强范围内,近化学比LiNbO3:Fe的总空间电荷场明显大于同成份LiNbO3:Fe的总空间电荷场。
2.
In this paper, the building process and the steady state behavior of the space charge field in photoconductive polymer have been discussed.
本文研究了光电导聚合物中空间电荷场的建立过程和稳态特性。
3.
The set of coupled wave equations and its numerical solutions taking the first two order space charge field into account are presented.
在晶体光轴垂直于入射面的各向异性实验组态下 ,对掺杂KNSBN晶体的各向异性自衍射过程进行了理论分析和实验观测 ,给出了包含空间电荷场前两阶分量作用的各向异性自衍射的耦合波方程及其数值解。
3) space-charge field
空间电荷场
1.
By use of numerical method,through comparing the contributions to the space-charge fields from the different electron transfer processes between the deep-trap centers(Mn2+/Mn3+) and the shallow-trap centers(Fe2+/Fe3+),the direct electron exchange between the Mn2+/Mn3+ and the Fe2+/Fe3+ levels through the tun.
采用数值方法,通过比较双中心模型中深(Mn2+/Mn3+)、浅(Fe2+/Fe3+)能级之间所有可能的电子交换过程,发现由隧穿效应引起的深浅能级之间直接电子交换过程对LiNbO3∶Fe∶Mn晶体总的空间电荷场大小起着决定性的作用。
2.
The space-charge field characteristics of a uniform sheet electron beam in a rectangular waveguide have been investigated theoretically and numerically.
利用理论分析和数值计算的方法研究了矩形波导内均匀电流密度的带状电子束模型的空间电荷场,给出了该带状电子束模型的空间电荷场的解析表达式,并研究了空间电荷场随带状电子束的几何参数和物理参数的变化规律。
3.
The space-charge field is analyzed using the theory of Tian BingGeng′s disc model.
借鉴田炳耕的圆盘模型推导空间电荷场。
4) steady state space charge field
稳态空间电荷场
1.
By taking into account of diffusion, drift and the photovoltaic effect, the band transport equations are set up when the volume holography is recorded in doubly doped LiNbO 3crystals by using two color lights, and obtain the analytical solution of the steady state space charge field.
建立了包括扩散、漂移和光伏打三种输运机制下双掺杂 Li Nb O3晶体在用双色光进行光存储的带输运方程 ,并得出了小调制度下稳态空间电荷场的分析解。
5) 3D space charge field
三维空间电荷场
6) Space charge induced electric field
空间电荷感应电场
补充资料:场致发光材料(见电致发光材料)
场致发光材料(见电致发光材料)
electroluminescent material
见场致发光材料eleetrolumineseent material 电致发光材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条