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Improvement of optical and electronic properties in broken gap mid-wave infrared laser materials

机译：裂隙中波红外激光材料的光学和电子性能的改善

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Summary form only given. Midwave Infrared (MWIR) laser materials based on InAs/Ga(In)Sb broken-gap superlattices (SLs) and quantum wells have been attractive due to their potential superior performance. Molecular beam epitaxy (MBE) growth of these materials, however, has been challenging because intermixing mechanisms can occur at the interfaces due to the non-common atom nature of InAs/Ga(In)Sb structures. These mechanisms include cross incorporation, segregation, and exchange. The induced interface roughness and the presence of the resultant non-radiative impurities deteriorate the optical and transport properties of these materials. Hence, control of the interface composition and uniformity has been critical to the reduction of these impurities in the broken-gap structures.

机译：仅提供摘要表格。基于InAs / Ga（In）Sb裂隙超晶格（SL）和量子阱的中波红外（MWIR）激光材料因其潜在的优越性能而备受瞩目。但是，由于InAs / Ga（In）Sb结构的非公共原子性质，在界面处会发生混合机制，因此这些材料的分子束外延（MBE）生长一直具有挑战性。这些机制包括交叉合并，隔离和交换。所引起的界面粗糙度和所产生的非辐射杂质的存在使这些材料的光学和传输性能恶化。因此，控制界面组成和均匀性对于减少断裂间隙结构中的这些杂质至关重要。

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《》|2001年|P.486-487|共2页
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Mi; Z.; Shaw; E.M.; Hasenberg; T.C.;
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中图分类无线电电子学、电信技术;
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1. New strategy for designing promising mid-infrared nonlinear optical materials: narrowing the band gap for large nonlinear optical efficiencies and reducing the thermal effect for a high laser-induced damage threshold [J] . Shu-Fang Li, Xiao-Ming Jiang, Yu-Hang Fan, Chemical science . 2018,第26期

机译：设计有前途的中红外非线性光学材料的新策略：缩小带隙以实现大的非线性光学效率，并降低高激光诱导损伤阈值的热效应
2. Tuning Near-Infrared Absorbing Donor Materials: A Study of Electronic, Optical, and Charge-Transport Properties of aza-BODIPYs [J] . Schellhammer Karl Sebastian, Li Tian-Yi, Zeika Olaf, Chemistry of Materials: A Publication of the American Chemistry Society . 2017,第13期

机译：调整近红外吸收供体材料：AZA-Bodipys的电子，光学和电荷运输性能研究
3. Synchrotron-based VUV spectroscopic ellipsometry system in application to optical properties studies of wide-bandgap materials for optoelectronics [J] . Krzysztof DORYWALSKI, Aleksy PATRYN, Bohdan ANDRIYEVSKY, Przeglad Elektrotechniczny . 2014,第3期

机译：基于同步加速器的VUV椭圆偏振光谱分析系统在光电子宽带隙材料光学性能研究中的应用
4. Improvement of optical and electronic properties in broken gap mid-wave infrared laser materials [C] . Z. Mi, E. M.Shaw, T. C. Hasenberg, Conference on Lasers and Electro-Optics . 2001

机译：破碎间隙中波红外激光材料中的光学和电子性能的改进
5. Ultrafast spectroscopic measurement of the optical and electronic properties of narrow-band-gap semiconductor laser materials. [D] . Anson, Scott Allen. 1999

机译：窄带隙半导体激光材料的光学和电子特性的超快光谱测量。
6. New strategy for designing promising mid-infrared nonlinear optical materials: narrowing the band gap for large nonlinear optical efficiencies and reducing the thermal effect for a high laser-induced damage threshold [O] . Shu-Fang Li, Xiao-Ming Jiang, Yu-Hang Fan, 2018

机译：设计有前途的中红外非线性光学材料的新策略：缩小带隙以实现较大的非线性光学效率并降低高激光诱导损伤阈值的热效应
7. New strategy for designing promising mid-infrared nonlinear optical materials: narrowing the band gap for large nonlinear optical efficiencies and reducing the thermal effect for a high laser-induced damage threshold [O] . Shu-Fang Li, Xiao-Ming Jiang, Yu-Hang Fan, 2018

机译：设计中非红外线非线性光学材料的新策略：缩小大型非线性光学效率的带隙，降低了高激光诱导损伤阈值的热效果
8. Optical Properties of Small Band Gap Semiconductors Subject to Laser Excitation. Nonlinear Infrared Properties of Semiconductors. [R] . McGill, T. C., Smith, D. L. 1982

机译：激光激发下小带隙半导体的光学特性。半导体的非线性红外特性。

Improvement of optical and electronic properties in broken gap mid-wave infrared laser materials

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