在图像化InP衬底上选择性MBE生长实现纳米InGaAs脊量子线亚微米间距线性阵列

Conference Proceedings. 2001 International Conference on Indium Phosphide and Related Materials. 13th IPRM (Cat. No.01CH37198) Pub Date : 2001-05-14 DOI:10.1109/ICIPRM.2001.929136

C. Jiang, T. Muranaka, H. Hasegawa

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引用次数: 0

摘要

通过对整个生长过程进行系统优化，在InP衬底上实现了纳米InGaAs脊量子线(qws)的亚微米间距线性阵列。采用预生长蚀刻、原子氢清洗法去除天然氧化物、优化V/III比等方法，可显著提高QWR阵列的均匀性。制备的亚微米间距纳米InGaAs脊状QWR阵列的高光学质量得到了证实，实现了强而窄的单PL发射峰，峰宽(FWHM)小至23 meV。与先前的4 /spl μ /m间距阵列相比，亚微米间距阵列的PL峰相对于同时生长的参考平面量子阱的PL峰蓝移超过100 meV。

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Realization of submicron-pitch linear arrays of nanometer-sized InGaAs ridge quantum wires by selective MBE growth on patterned InP substrates

By optimizing the whole growth process systematically, submicron-pitch linear arrays of nanometer-sized InGaAs ridge quantum wires (QWRs) were successfully realized by selective MBE on patterned InP substrates. Uniformity of QWR arrays was markedly improved by employing pre-growth etching, native oxide removal by atomic hydrogen cleaning, and optimization of V/III ratio. High optical quality of the fabricated submicron-pitch nanometer-sized InGaAs ridge QWR arrays was confirmed by achievement of an intense and narrow single PL emission peak with a peak width (FWHM) as small as 23 meV. As compared with the previous 4 /spl mu/m pitch arrays, the PL peak of the submicron-pitch arrays showed a large blue shift of more than 100 meV with respect to that from a reference planar QW grown simultaneously.

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Conference Proceedings. 2001 International Conference on Indium Phosphide and Related Materials. 13th IPRM (Cat. No.01CH37198)

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