InP上的高In含量GaInAsN:组分依赖性带隙能和发光特性

Conference Proceedings. 14th Indium Phosphide and Related Materials Conference (Cat. No.02CH37307) Pub Date : 2002-08-07 DOI:10.1109/ICIPRM.2002.1014449

D. Serries, T. Geppert, P. Ganser, K. Kohler, J. Wagner

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引用次数: 0

摘要

利用等离子体辅助分子束外延技术，在InP衬底上生长出了四元赝晶应变的Ga/sub - 1-x/In/sub -x/ As/sub - 1-y/N/sub -y/薄膜和双量子阱(0.53 /spl les/ x/ spl les/ 0.70, 0 /spl les/ y/ spl les/ 0.024)。随着氮浓度的增加，压缩应变减小，光致发光(PL)峰位置低能移。随着N掺入量的增加，峰强度降低和线宽增加，PL性能的恶化可以通过快速退火来部分补偿，这伴随着相对于生长样品的蓝移。根据实测的生长样品的PL峰值能量，推导出氮掺入对GaInAsN带隙能量的净效应。将抗带交叉模型拟合到与成分相关的GaInAsN带隙能量中，得到高in含量GaInAsN的相互作用参数C/sub MN/的值仅略小于低in含量GaInAsN在GaAs上的报告值。

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High In content GaInAsN on InP: composition dependent band gap energy and luminescence properties

Quaternary pseudomorphically strained Ga/sub 1-x/In/sub x/As/sub 1-y/N/sub y/ films and double quantum wells (0.53 /spl les/ x /spl les/ 0.70, 0 /spl les/ y /spl les/ 0.024) were grown by plasma assisted molecular beam epitaxy on InP substrates. A reduction of compressive strain and a low-energy shift of photoluminescence (PL) peak position was observed with increasing N concentration. The deterioration of the PL properties in terms of reduced peak intensity and increased linewidth with increasing N incorporation can be partially compensated by rapid thermal annealing, which is accompanied by a blue-shift with respect to the as-grown samples. From the measured PL peak energies of the as-grown samples the net effect of N incorporation on the GaInAsN bandgap energy was deduced. The band anticrossing model was fitted to the obtained composition dependent GaInAsN bandgap energy resulting in values for the interaction parameter C/sub MN/ for high In content GaInAsN which are only slightly smaller than that reported for low In content GaInAsN on GaAs.

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Conference Proceedings. 14th Indium Phosphide and Related Materials Conference (Cat. No.02CH37307)

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