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Cathodoluminescence microscopy and spectroscopy of GaN epilayers microstructured using surface charge lithography

机译：使用表面电荷光刻技术微结构化的GaN外延层的阴极发光显微镜和光谱学

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Cathodoluminescence (CL) microscopy and spectroscopy have been used to investigate the optical properties of GaN microstructures patterned by Ar+ ion irradiation and subsequent photoelectrochemical (PEC) etching. Monochromatic CL images and CL spectra reveal an enhancement of several defect-related emission bands in a 10 mu m wide area around each microstructure. In addition, columnar nanostructures and nanoetch pits were found in the PEC etched areas. CL emission of the nanocolumns is dominated by free electron to acceptor transitions, while excitonic luminescence prevails in the rest of the etched GaN layers. Investigation of the sidewalls of the microstructures reveals that a CL emission band centered at about 3.41 eV, attributed to excitons bound to structural defects, is effectively suppressed after PEC etching only in the observed nanocolumns.

机译：阴极发光（CL）显微镜和光谱已用于研究通过Ar +离子辐照和随后的光电化学（PEC）蚀刻形成图案的GaN微结构的光学性质。单色CL图像和CL光谱揭示了在每个微结构周围10微米宽的区域中几个与缺陷相关的发射带的增强。另外，在PEC蚀刻区域中发现了柱状纳米结构和纳米蚀刻凹坑。纳米柱的CL发射主要由自由电子到受体跃迁所控制，而在其余的GaN蚀刻层中则主要发生激子发光。对微结构侧壁的研究表明，仅在观察到的纳米柱中进行PEC蚀刻后，有效抑制了归因于与结构缺陷结合的激子的以约3.41 eV为中心的CL发射带。

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Díaz-Guerra Viejo Carlos; Piqueras de Noriega Javier; Volciuc O.; Popa V.; Tiginyanu I. M.;
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年度 2006
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1. Cathodoluminescence microscopy and spectroscopy of GaN epilayers microstructured using surface charge lithography [J] . C. Diaz-Guerra, J. Piqueras, O. Volciuc, Journal of Applied Physics . 2006,第2期

机译：使用表面电荷光刻技术微结构化的GaN外延层的阴极发光显微镜和光谱学
2. Cathodoluminescence and atomic force microscopy study of n-type doped GaN epilayers [J] . M. Godlewski, E. Lusakowska, R. Bozek, Physica Status Solidi. C, Conferences and critical reviews . 2004,第2期

机译：n型掺杂GaN外延层的阴极发光和原子力显微镜研究
3. Implementation of Spatio-Time-Resolved Cathodoluminescence Spectroscopy for Studying Local Carrier Dynamics in a Low Dislocation Density m-Plane ln_(0.05)Ga_(0.95)N Epilayer Grown on a Freestanding GaN Substrate [J] . Munehito Kagaya, Pierre Corfdir, Jean-Daniel Ganiere, Japanese journal of applied physics . 2011,第11Issue1期

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4. Epitaxial lateral overgrowth of GaN structures: spatially resolved characterization by cathodoluminescence microscopy and micro-raman spectroscopy [C] . F.Bertram, T.Riemann, J.Christen, Symposium L on nitrides and related wide band gap materials of the E-MRS conference . 1999

机译：GaN结构的外延横向过度生长：阴极发光显微镜和微拉曼光谱的空间分辨表征
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机译：用于研究局部载体动力学的时空分离的阴离子发光光谱法在一个独立的GaN衬底上生长的低位位移密度平面中局部载体动力学的频率光谱学研究在0.05ga0.95N中生长

Cathodoluminescence microscopy and spectroscopy of GaN epilayers microstructured using surface charge lithography

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