摘要: |
[目的]SiC材料结构缺陷的检测和控制是实现材料应用的关键环节,因此本文对6H-SiC单晶中的结构缺陷进行研究。[方法]采用同步辐射白光形貌术观察6H-SiC单晶中的基本螺位错和基平面弯曲,并利用X射线迹线法模拟基本螺位错的形貌和基平面弯曲后衍射斑点的形状。[结果]6H-SiC单晶中的典型结构缺陷之一为基本螺位错,它的形貌特征为白色的圆斑;由于热弹应力的存在,6H-SiC单晶在生长过程中容易发生基平面弯曲,结果导致衍射斑点的形状发生改变。[结论]同步辐射白光形貌术和X射线迹线法可以用于检测6H-SiC单晶结构缺陷;样品的基本螺位错密度为1.56×104/cm2,基平面弯曲半径近似为1 m。 |
关键词: 基本螺位错 基平面弯曲 6H-SiC单晶 同步辐射白光形貌术 X射线迹线法 |
DOI: |
投稿时间:2015-06-11修订日期:2015-07-28 |
基金项目:国家自然科学基金项目(11134006,61327808)资助。 |
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Investigation on Structural Defects in 6H-SiC Single Crystal by Synchrotron Radiation White-Beam Topography and X-ray Tracing Method |
HU Xiao-bo
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(State Key Laboratory of Crystal Materials, Shandong University, Jinan, Shangdong, 250100, China) |
Abstract: |
[Objective] A key step to realize the application of SiC materials is the detection and control of structural defects in 6H-SiC single crystals, which was studied herein.[Methods] Elementary screw dislocations and basal plane bending were observed by means of synchrotron radiation white-beam topography.In the meantime, the morphology of an elementary screw dislocation and the shape of diffraction beam in case of basal plane bending were simulated by X-ray tracing method.[Results] One of typical structural defects in 6H-SiC single crystals is the elementary screw dislocation, which exhibits the characteristic of white dot in synchrotron radiation image.Due to the existence of thermo-elastic stress during the 6H-SiC crystal growth, the basal plane is easily bended.As a result, the shape of diffraction beam is deformed.[Conclusion] Synchrotron radiation white-beam topography and X-ray tracing method can be used to examine structural defects in 6H-SiC single crystals.At present work, the density of elementary screw dislocation is 1.56×104/cm2 and the radius of basal plane bending is approximately 1 meter. |
Key words: elementary screw dislocation basal plane bending 6H-SiC single crystal synchrotron radiation white-beam topography X-ray tracing method |