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GaAs/GaInNAs多量子阱谐振腔增强型长波长光探测器 总被引:4,自引:4,他引:0
报道了一种具有高速响应特性的GaAs基长波长谐振强增强型(RCE)光探测器,它采用分子束外延技术(MBE)在GaAs衬底上直接生长GaAs/AlAs布拉格反射镜(DBR)和GaInNAs/GaAs多量子阱吸收层而形成,解决了GaAs系材料只能对短波长光响应的问题,实现了GaAs基探测器对长波长光的响应。该器件在峰值响应波长1296.5nm处获得了17.4%的量子效率,响应谱线半宽为11nm,零偏置时的暗电流密度8.74×10-15A/μm2,具有良好的暗电流特性。通过RC常数测量计算得到器件的3dB带宽为4.82GHz。 相似文献
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During the process of molecular beam epitaxy employing a DC plasma as N source,the effects of the growth temperature, growth rate and As4 pressure on the optical properties of GaInNAs Quantum Well(QW) are similar to those of InGaAs QW with the same In contents.In the range of 400 to 470℃, elevating growth temperature is beneficial to the improvement in the photoluminescence (PL) peak intensity of GaInNAs QW, but obviously broadens the fullwidth at half maximum PL peak. The improvement of optical properties and the reduction of N incorporation have been observed by increasing the growth rate. As4 pressure mainly affects the optical properties of GaInNAs QW rather than N incorporation does. 相似文献
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The investigation on GaAs/AlGaAs multiple quantum well Self Electro-optic Effect Device (SEED) arrays for flip-chip bonding optoelectronic smart pixels has been reported. In order to increase the absorption of the intrinsic region, the number of quantum well periods is defined as 90 pairs. The GaAs/AlGaAs multiple quantum well devices are designed for 850nm operation. The measurement results under applied biases show the good optoelectronic characteristics of elements in SEED arrays. 相似文献
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