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系统地研究了波长为2.7μm的InGaAsSb/AlGaAsSb多量子阱激光器中有源区的优化设计.分别用含应变势的6带KP模型和抛物带模型计算价带和导带的能带结构,并得到薛定谔方程和泊松方程的自洽解,由此计算量子阱在载流子注入时的增益谱.研究表明制约量子阱增益的主要因素不是跃迁矩阵元,而是粒子数反转程度,尤其是空穴填充HH1子带的概率.增加压应变或减小阱宽都会提高量子阱增益.前者降低了价带HH1子带空穴的平面内有效质量;后者拉大了价带子带间距,尽管它同时略微增加了空穴有效质量.这两种因素都导致价带顶空穴态 相似文献
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采用回旋共振光谱方法,同时获得了具有较高电子气浓度的赝形In0.80Ga0.20As/In0.53Ga0.47As/In0.52Al0.48AsHEMT结构中最低两个子能带的费密面附近电子有效质量、 散射时间和迁移率.观察到该系统中能带非抛物性和波函数穿透所导致的电子回旋有效质量的显著增大效应,以及合金无序势和电离杂质散射所引起的电子散射时间和迁移率明显的子带依赖性.
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在不同晶格温度和不同激发光强度下,测量了四元系GaInAsSb/GaAlAsSb单量子阱中自由激子的荧光光谱,导出了稳态光谱测量条件下自由激子荧光强度与激发光强度和晶格温度的一般性公式.计算结果表明,激子相对占有数引起的温度和密度效应会影响激子发光的强度关系.根据本文的简单模型,线性比例系数I/I0实际上综合地反映了量子阱中自由激子的荧光效率,而从激子荧光强度的Arrhenius图的最佳拟合中不仅可以得到激子的束缚能和激活能,而且还能估计出量子阱材料的本底浓度和散射时间常数.
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Properties of Strain Compensated Symmetrical Triangular Quantum Wells Composed of InGaAs/InAs Chirped Superlattice Grown Using Gas Source Molecular Beam Epitaxy 下载免费PDF全文
We investigate the properties of symmetrical triangular quantum wells composed of InGaAs/InAs chirped superlattice, which is grown by gas source molecular beam epitaxy via digital alloy method. In the quantum well structure tensile AlInGaAs are used as barriers to partially compensate for the significant compressive strain in the wells, the strain compensation effects are confirmed by x-ray measurement. The photoluminescence spectra of the sample are dominated by the excitonic recombination peak in the whole temperature range. The thermal quenching, peak energy shift and line-width broadening of the PL spectra are analysed in detail, the mechanisms are discussed. 相似文献
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Optical properties of InGaAsBi/GaAs strained quantum wells studied by temperature-dependent photoluminescence 下载免费PDF全文
The effect of bismuth on the optical properties of InGaAsBi/GaAs quantum well structures is investigated using the temperature-dependent photoluminescence from 12 K to 450 K.The incorporation of bismuth in the InGaAsBi quantum well is confirmed and found to result in a red shift of photoluminescence wavelength of 27.3 meV at 300 K.The photoluminescence intensity is significantly enhanced by about 50 times at 12 K with respect to that of the InGaAs quantum well due to the surfactant effect of bismuth.The temperature-dependent integrated photoluminescence intensities of the two samples reveal different behaviors related to various non-radiative recombination processes.The incorporation of bismuth also induces alloy non-uniformity in the quantum well,leading to an increased photoluminescence linewidth. 相似文献
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