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基于无杂质空位混杂法制备带有无吸收窗口的940nm GaInP/GaAsP/GaInAs半导体激光器研究 总被引:3,自引:0,他引:3
为提高940nm半导体激光器抗灾变性光学损伤(COD)能力,采用无杂质空位量子阱混杂技术制备了带有无吸收窗口的940nm GaInP/GaAsP/GaInAs半导体激光器。借助光致发光光谱分析了退火温度和介质膜厚度对GaInP/GaAsP/GaInAs单量子阱混杂的影响;通过电化学电容-电压(EC-V)方法检测了经高温退火后激光器外延片的掺杂浓度分布的变化情况。实验发现,在875℃快速热退火条件下,带有磁控溅射法制备的200nm厚的SiO2盖层样品发生蓝移达29.8nm,而电子束蒸发法制备的200nm厚TiO2样品在相同退火条件下蓝移量仅为4.3nm。两种方法分别对蓝移起到很好的促进和抑制作用。将优化后的条件用于带有窗口结构的激光器器件制备,其抗COD能力提高了1.6倍。 相似文献
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Amorphous GaAs1-xNx(a-GaAs1-xNx) thin films have been deposited at room temperature by a reactive magnetron sputtering technique on glass substrates with different sputtering pressures.The thickness,nitrogen content,carrier concentration and transmittance of the as-deposited films were determined experimentally.The influence of sputtering pressure on the optical band gap,refractive index and dispersion parameters(Eo,Ed) has been investigated.An analysis of the absorption coefficient revealed a direct optical transition characterizing the asdeposited films.The refractive index dispersions of the as-deposited a-GaAs1-xNx films fitted well to the Cauchy dispersion relation and the Wemple model. 相似文献
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