外单轴应变下ii型掺杂AlSb/InAs纳米异质结构的光响应计算

2017 IEEE 3rd International Conference on Engineering Technologies and Social Sciences (ICETSS) Pub Date : 2017-08-01 DOI:10.1109/ICETSS.2017.8324153

Amit Rathi, A. Singh

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引用次数: 2

摘要

观察了ii型量子阱异质结构在单轴外应变作用下的波对称性和光增益谱变化。本文报道了II型掺杂AlSb/InAs单量子阱异质结构在SWIR范围内沿[100]受外单轴应变作用下的波函数和光增益。除光学增益外，还计算了电磁场扰动下的能带结构、价带包络函数和导带包络函数。求解了6×6对角化k-p哈密顿量，并采用Luttinger-Kohn模型计算了轻、重空穴能量。当注入载流子密度为4 × 1012 /cm时，在0.47 eV下，TM极化的峰值光学增益为3600/cm。沿[100]施加单轴应变时，在光学增益谱中观察到向右的显著位移。

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Optical response computations in type-II doped AlSb/InAs nano-heterostructure under external uniaxial strain in SWIR range

Transformations in wave symmetry and optical gain spectrum in type-II quantum well heterostructures is observed under external uniaxial strain. This paper reports the wavefunctions and optical gain in type II doped AlSb/InAs single quantum well heterostructure subjected to external uniaxial strain along [100] in SWIR range. Apart from optical gain, energy bandstructure along with valence and conduction band envelope functions have been computed under electromagnetic field perturbation. The 6×6 diagonalised k-p Hamiltonian has been solved and Luttinger-Kohn model is used for the computation of light and heavy hole energies. For the injected carrier density of 4 × 1012 / cm, the peak optical gain in TM polarization is found to be 3600/cm at 0.47 eV. Significant shift towards right is observed in the optical gain spectrum under uniaxial strain applied along [100].

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2017 IEEE 3rd International Conference on Engineering Technologies and Social Sciences (ICETSS)

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