减反射膜

  • 网络PECVD;arc;AR COATING;antireflective coating
减反射膜减反射膜
  1. 太阳电池有无减反射膜的短路光电流增量比上限

    The upper limit of the ratio of short-circuit photo current increment of solar cells with and without arc

  2. 大功率CO2激光器窗口及减反射膜

    High power CO_2 laser window materials and their antireflection coatings

  3. 色散效应对GaAs太阳电池双层减反射膜的影响

    Dispersion Effect on Double-Layer Anti-Reflection Coatings of GaAs Solar Cells

  4. 等离子体增强CVD氮化硅作硅太阳电池的减反射膜

    Plasma-enhanced CVD silicon nitride as antireflection coating of silicon solar cells

  5. TiO2是一种作太阳电池减反射膜的理想材料。

    TiO2 is a kind of ideal material on reducing reflection for solar cell .

  6. TiO2减反射膜应用于商业化单晶硅太阳电池生产

    TiO_2 ARE Apply in Commercial Single Crystalline Silicon Solar Cell Production

  7. DLC膜作为Ge片减反射膜的研究

    A study of DLC films for antireflection films of Ge

  8. 溶胶-凝胶法制备抗激光损伤SiO2疏水减反射膜

    Preparation of hydrophobic anti-reflective SiO_2 films for high laser resistance by Sol-Gel Process

  9. SiO高效减反射膜的蒸镀和监控

    Evaporation and Monitoring of High-efficiency SiO Antireflective Film

  10. 云南1m太阳塔真空封窗减反射膜的设计

    Design of Antireflection Coating on Vacuum Windows for the Yunnan 1m Solar Telescope

  11. 晶体硅太阳电池TiO2与SiN减反射膜对比研究

    Comparing Research on TiO_2 Anti-reflection Coating ( ARC ) and SiN ARC of Crystalline Si Solar Sells

  12. CeO2折射率高,稳定性好,常用于制备减反射膜等。

    Because of its high index of refraction and well stability , it is used to produce reduce reflection film .

  13. 太阳电池组件上纳米多孔SiO2减反射膜的制备和增透性能研究

    Study on the process and properties of nano-porous SiO_2 anti-reflection film applied in the solar module

  14. PECVD法制备氮化硅减反射膜研究

    ARC of Silicon Nitride Prepared by PECVD

  15. 并通过对1.3μm激光器前后腔面蒸镀SiO减反射膜而制成了超发光二极管。

    A superluminescent diode is fabricated by means of evaporation of SiO antireflection film for 1.3 μ m LDs cavity Surfaces .

  16. 介绍了在AlGaAs/GaAs太阳电池上制备MgF2/ZnS双层减反射膜的研究工作。

    In this article , preparation of MgF 2 / ZnS double layer antireflection coating ( ARC ) on Al 0.8 Ga 0.2 As / GaAs solar cells was discussed .

  17. 溶胶&凝胶法制备TEOS-DOS基SiO2疏水减反射膜:溶胶微结构对膜性能的影响

    Preparation of TEOS-DDS Based Water-Repellent Anti-Reflective SiO_2 Films by Sol Gel Process : Effects of Micro-structure of Sols on Performances of Films

  18. 可以和具有TiO2-MgF2双层减反射膜的常规碱腐蚀的结果相比拟,且在能量较高的短波范围内具有更好的减反射特性。这对于提高太阳电池的效率是极有益的。

    And the reflectance in the short wavelength range is lower than that of a double layer ARC , which is beneficial for improving the solar cell efficiency .

  19. LiNbO3晶体的减反射膜

    Antireflection Coating on LiNbO_3 Crystals

  20. 本文讨论了用溶胶-凝胶法制备Na2O-B2O3-SiO2系统梯度折射率减反射膜的实验方法。

    Laboratory method and process used to deposit the gradient index antireflective glass films of Na_2O-B_2O_3-SiO_2 system by the sol-gel method are discussed .

  21. 利用Rugate膜系实现宽角度减反射膜的设计

    The Design of Antireflection Coatings of Broad Angle Range by Rugate Coatings

  22. 表述了DF激光波段采用CaF2和硅窗口减反射膜系的结果。

    The results of antireflection thin film systems for single crystal CaF2 and silicon windows for application at DF laser wavelengths have been present in this paper .

  23. 改变ITO材料通常作为透明导电膜单独使用的状况,将其作为减反射膜系中的一层,能够在很大程度上增加ITO透明导电膜在可见光部分的透过率。

    Usually , ITO transparent conductive thin film is made up of only one layer of ITO material with the mean transmittance of nearly 90 % in the visible region of the spectrum .

  24. Glan-Thompson棱镜四层宽带减反射膜的设计与蒸镀

    Design and Deposition of Four Layers Antireflection Films Based on Glan-Thompson Prism

  25. 介绍ITO材料的一些特性以及ITO膜的制备方法,分析了ITO膜层厚度对减反射膜的减反射效果的影响,从而得出一个合适的厚度。

    Some features of ITO material and generate ways of ITO coating are introduced . At the same time the thickness of ITO is analyzed which will influence effect of AR film . An ideal thickness of ITO can be found .

  26. 将电池设计为浅结密栅,在前表面热生长一超薄SiO2钝化层,并制作了双层减反射膜,使电池的开路电压、短路电流和填充因子都得到较大改进。

    With an ultra-thin SiO2 passivation layer on the front surface and double layer antireflection coating , the solar cell is designed with shallow junction and dense grating . The open-circuit voltage , the short-circuit current and the space factor have been remarkably improved .

  27. 在中心波长为1310nm的InGaAsP半导体激光器的端面镀制了剩余反射率<10-4的3层减反射膜,得到了自发辐射谱波纹<0.5dB的半导体光放大器。

    Using a triple-layer antireflection coating on facets of InGaAsP semiconductor laser chips , the minimum facet reflectivity < 10 ~ - 4 at the center-wavelength of 1 310 nm and the semiconductor optical amplifiers with ASE ripple < 0.5 dB are obtained .

  28. 新型空间硅太阳电池纳米减反射膜系的优化设计

    Design of new nano anti-reflection coating for space silicon solar cells

  29. 太阳电池减反射膜设计与分析

    Design and Analysis of Anti - Reflection Coating for Solar Cells

  30. 400-1100nm波段用于格兰泰勒棱镜减反射膜的研制

    Development of 400-1100 nm Antireflection Film Based on Glan-Taylor Prism