Strained InGaAs/GaAs quantum well (QW) was grown by low-pressuremetallorganic chemical vapor deposition (MOCVD). Growth interruption and strain buffer layer wereintroduced to improve the photoluminescence (PL) perform...Strained InGaAs/GaAs quantum well (QW) was grown by low-pressuremetallorganic chemical vapor deposition (MOCVD). Growth interruption and strain buffer layer wereintroduced to improve the photoluminescence (PL) performance of the InGaAs/GaAs quantum well. GoodPL results were obtained under condition of growth an interruption of 10 s combined with a moderatestrain buffer layer. Wavelength lasers of 1064 nm using the QW were grown and processed intodevices. Broad area lasers (100 μm x 500 μm) show very low threshold current densities (43 A/cm^2)and high slop efficiency (0.34 W/A, per facet).展开更多
The In segregation and its suppression in InGaAs/AlGaAs quantum well are investigated by using high-resolution x-ray diffraction(XRD)and photoluminescence(PL),combined with the state-of-the-art aberration corrected sc...The In segregation and its suppression in InGaAs/AlGaAs quantum well are investigated by using high-resolution x-ray diffraction(XRD)and photoluminescence(PL),combined with the state-of-the-art aberration corrected scanning transmission electron microscopy(Cs-STEM)techniques.To facility our study,we grow two multiple quantum wells(MQWs)samples,which are almost identical except that in sample B a thin GaAs layer is inserted in each of the InGaAs well and AlGaAs barrier layer comparing to pristine InGaAs/AlGaAs MQWs(sample A).Our study indeed shows the direct evidences that In segregation occurs in the InGaAs/AlGaAs interface,and the effect of the Ga As insertion layer on suppressing the segregation of In atoms is also demonstrated on the atomic-scale.Therefore,the atomic-scale insights are provided to understand the segregation behavior of In atoms and to unravel the underlying mechanism of the effect of GaAs insertion layer on the improvement of crystallinity,interface roughness,and further an enhanced optical performance of InGaAs/AlGaAs QWs.展开更多
通过采用经过优化的新型大光腔结构 ,脊形波导 980 nm单模 In Ga As/Ga As/Al Ga As多量子阱半导体激光器在保持大功率光输出的同时获得了较小的垂直发散角 .结果表明波导中的光功率密度可以降低 ,获得了大于40 0 m W、斜率效率 0 .89W/...通过采用经过优化的新型大光腔结构 ,脊形波导 980 nm单模 In Ga As/Ga As/Al Ga As多量子阱半导体激光器在保持大功率光输出的同时获得了较小的垂直发散角 .结果表明波导中的光功率密度可以降低 ,获得了大于40 0 m W、斜率效率 0 .89W/A的输出光功率 ,垂直方向远场发散角也降低到 2展开更多
利用分子束外延 (MBE)技术在高指数面 Ga As衬底上自组织生长了应变 In Ga As/Ga As量子线材料。原子力显微镜 (AFM)观测结果表明量子线的密度高达 4× 1 0 5/cm。低温偏振光致发光谱 (PPL)研究发现其发光峰半高宽 (FWHM)最小为 9.2...利用分子束外延 (MBE)技术在高指数面 Ga As衬底上自组织生长了应变 In Ga As/Ga As量子线材料。原子力显微镜 (AFM)观测结果表明量子线的密度高达 4× 1 0 5/cm。低温偏振光致发光谱 (PPL)研究发现其发光峰半高宽 (FWHM)最小为 9.2 me V,最大偏振度可达 0 .2 2。以 Al Ga As为垫垒 ,In Ga As/Ga As量子线为沟道 ,成功制备了量子线场效应管 (QWR-FET)结构材料 ,并试制了器件 。展开更多
针对高应变InGaAs/GaAs多量子阱中存在的局域态问题,利用金属有机化合物气相外延(MOCVD)技术,设计并生长了五周期的In_(0.3)Ga_(0.7)As/GaAs高应变多量子阱材料。通过原子力显微镜(Atomic force microscope,AFM)和变温光致发光(Photolum...针对高应变InGaAs/GaAs多量子阱中存在的局域态问题,利用金属有机化合物气相外延(MOCVD)技术,设计并生长了五周期的In_(0.3)Ga_(0.7)As/GaAs高应变多量子阱材料。通过原子力显微镜(Atomic force microscope,AFM)和变温光致发光(Photoluminescence,PL)测试,发现量子阱内部存在缺陷及组分波动的材料无序性表现,验证了多量子阱内部局域态的存在及起源。同时发现在不同测试位置,局域态在低温下对光谱的影响也不同,分别表现为双峰分布和峰位“S”型变化。这进一步说明材料内部无序化程度不同,导致局域态的深度也不同。依据温度-带隙关系的拟合,提出了包含局域态的多量子阱材料的电势分布,并揭示了局域态载流子和自由载流子的复合机制。并且借助变功率PL测试,研究了在不同激发功率密度下不同深度的局域态的发光特性。展开更多
文摘Strained InGaAs/GaAs quantum well (QW) was grown by low-pressuremetallorganic chemical vapor deposition (MOCVD). Growth interruption and strain buffer layer wereintroduced to improve the photoluminescence (PL) performance of the InGaAs/GaAs quantum well. GoodPL results were obtained under condition of growth an interruption of 10 s combined with a moderatestrain buffer layer. Wavelength lasers of 1064 nm using the QW were grown and processed intodevices. Broad area lasers (100 μm x 500 μm) show very low threshold current densities (43 A/cm^2)and high slop efficiency (0.34 W/A, per facet).
基金X.H.gratefully acknowledges the financial support from the National Natural Science Foundation of China(Grant No.21902096)the Scientific Research Foundation of Shaanxi University of Science and Technology(Grant No.126061803)+1 种基金S.M.and B.X.thank the National Natural Science Foundation of China(Grant No.21972103)the Shanxi Provincial Key Innovative Research Team in Science and Technology(Grant No.201703D111026).
文摘The In segregation and its suppression in InGaAs/AlGaAs quantum well are investigated by using high-resolution x-ray diffraction(XRD)and photoluminescence(PL),combined with the state-of-the-art aberration corrected scanning transmission electron microscopy(Cs-STEM)techniques.To facility our study,we grow two multiple quantum wells(MQWs)samples,which are almost identical except that in sample B a thin GaAs layer is inserted in each of the InGaAs well and AlGaAs barrier layer comparing to pristine InGaAs/AlGaAs MQWs(sample A).Our study indeed shows the direct evidences that In segregation occurs in the InGaAs/AlGaAs interface,and the effect of the Ga As insertion layer on suppressing the segregation of In atoms is also demonstrated on the atomic-scale.Therefore,the atomic-scale insights are provided to understand the segregation behavior of In atoms and to unravel the underlying mechanism of the effect of GaAs insertion layer on the improvement of crystallinity,interface roughness,and further an enhanced optical performance of InGaAs/AlGaAs QWs.
文摘通过采用经过优化的新型大光腔结构 ,脊形波导 980 nm单模 In Ga As/Ga As/Al Ga As多量子阱半导体激光器在保持大功率光输出的同时获得了较小的垂直发散角 .结果表明波导中的光功率密度可以降低 ,获得了大于40 0 m W、斜率效率 0 .89W/A的输出光功率 ,垂直方向远场发散角也降低到 2
文摘利用分子束外延 (MBE)技术在高指数面 Ga As衬底上自组织生长了应变 In Ga As/Ga As量子线材料。原子力显微镜 (AFM)观测结果表明量子线的密度高达 4× 1 0 5/cm。低温偏振光致发光谱 (PPL)研究发现其发光峰半高宽 (FWHM)最小为 9.2 me V,最大偏振度可达 0 .2 2。以 Al Ga As为垫垒 ,In Ga As/Ga As量子线为沟道 ,成功制备了量子线场效应管 (QWR-FET)结构材料 ,并试制了器件 。
文摘针对高应变InGaAs/GaAs多量子阱中存在的局域态问题,利用金属有机化合物气相外延(MOCVD)技术,设计并生长了五周期的In_(0.3)Ga_(0.7)As/GaAs高应变多量子阱材料。通过原子力显微镜(Atomic force microscope,AFM)和变温光致发光(Photoluminescence,PL)测试,发现量子阱内部存在缺陷及组分波动的材料无序性表现,验证了多量子阱内部局域态的存在及起源。同时发现在不同测试位置,局域态在低温下对光谱的影响也不同,分别表现为双峰分布和峰位“S”型变化。这进一步说明材料内部无序化程度不同,导致局域态的深度也不同。依据温度-带隙关系的拟合,提出了包含局域态的多量子阱材料的电势分布,并揭示了局域态载流子和自由载流子的复合机制。并且借助变功率PL测试,研究了在不同激发功率密度下不同深度的局域态的发光特性。