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采用光学薄膜理论中干涉矩阵模型计算了峰值波长为630nm的AlGaInP红光LED的Al0.6Ga0.4As/AlAs材料的常规DBR和复合DBR的反射谱特性,用LP-MOCVD方法生长了模拟设计的DBR结构,测量了其白光反射谱,实验与模拟结果基本符合.制备了采用Al0.6Ga0.4As/AlAs复合DBR的LED器件,未封装输出光功率为2.3mW,外量子效率为5.6%,发光效率可达12 lm/W,比常规DBR器件提高了35%.验证了复合DBR与常规DBR相比,可以大幅度提高AlGaInP红光LED的出光效率. 相似文献
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In order to improve the light efficiency of the conventional GaN-based light-emitting diodes(LEDs), the indium tin oxide(ITO) film is introduced as the current spreading layer and the light anti-reflecting layer on the p-GaN surface.There is a big problem with the ITO thin film’s corrosion during the electrode preparation.In this paper,at least,the edge of the ITO film was lateral corroded 3.5μm width,i.e.6.43%—1/3 of ITO film’s area. An optimized simple process,i.e.inductively couple plasma(ICP),was introduced to solve this problem.The ICP process not only prevented the ITO film from lateral corrosion,but also improved the LED’s light intensity and device performance.The edge of the ITO film by ICP dry etching is steep,and the areas of ITO film are whole. Compared with the chip by wet etching,the areas of light emission increase by 6.43%at least and the chip’s lop values increase by 45.9%at most. 相似文献
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A kind of AlGaInP light emitting diode (LED) with surface anti-reflecting structure has been introduced to solve the problems of low light efficiency and restricted luminous intensity. The new structure can be demonstrated theoretically and experimentally, and LEDs with the new structure have higher on-axis luminous intensity and larger saturation current than conventional LEDs and LEDs with ITO film only, which is caused by higher external quantum efficiency and also higher internal quantum efficiency. The new LEDs are especially suitable for working at large injected currents. 相似文献
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上海轨道交通体制自2000年4月发生重大变化,实行投资、建设、运营、监管“四分开”,以适应轨道交通超常规发展和行业发展的需要。该文论述新体制运行以来的效果、工作界面以及趋势。 相似文献
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采用光学薄膜理论中干涉矩阵模型计算了峰值波长为630nm的AlGaInP红光LED的Al0.6Ga0.4As/AlAs材料的常规DBR和复合DBR的反射谱特性,用LP-MOCVD方法生长了模拟设计的DBR结构,测量了其白光反射谱,实验与模拟结果基本符合.制备了采用Al0.6Ga0.4As/AlAs复合DBR的LED器件,未封装输出光功率为2.3mW,外量子效率为5.6%,发光效率可达12 lm/W,比常规DBR器件提高了35%.验证了复合DBR与常规DBR相比,可以大幅度提高AlGaInP红光LED的出光效率. 相似文献
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采用ICP干法刻蚀ITO提高GaN基LED的特性 总被引:3,自引:3,他引:0
针对常规双电极蓝宝石衬底GaN基LED,为了提高出光效率,在P-GaN表面生长一层ITO作为电流扩展层和增透膜。但是,在腐蚀ITO的过程中,经常会遇到ITO被侧向腐蚀的问题。本文中,通过湿法腐蚀得到的ITO薄膜大概被腐蚀掉6.43%~1/3的面积。这个问题可以通过ICP干法刻蚀来解决,ICP干法刻蚀能很好的改善ITO侧向腐蚀,并且工艺简单,能很好的改善LED器件的特性。得到的ITO薄膜边缘陡峭,面积完整,相较于湿法腐蚀ITO,在工作中ICP干法刻蚀ITO的LED,发光面积最少能提高6.43%,光强最高能提高45.9%。 相似文献
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