Steady distribution structure of point defects near crystal-melt interface under pulling stop of CZ Si crystal

晶体缺陷 Crystal(编程语言) 位错 材料科学 扩散 分布(数学) 结晶学 凝聚态物理 晶体生长 熔点 点(几何) 热的 化学物理 化学 热力学 复合材料 几何学 物理 计算机科学 数学 数学分析 程序设计语言
作者
Takao Abé,Takuya Takahashi,Katsuhiko Shirai
出处
期刊:Journal of Crystal Growth [Elsevier BV]
卷期号:459: 87-94 被引量:9
标识
DOI:10.1016/j.jcrysgro.2016.11.073
摘要

In order to reveal a steady distribution structure of point defects of no growing Si on the solid-liquid interface, the crystals were grown at a high pulling rate, which Vs becomes predominant, and the pulling was suddenly stopped. After restoring the variations of the crystal by the pulling-stop, the crystals were then left in prolonged contact with the melt. Finally, the crystals were detached and rapidly cooled to freeze point defects and then a distribution of the point defects of the as-grown crystals was observed. As a result, a dislocation loop (DL) region, which is formed by the aggregation of interstitials (Is), was formed over the solid-liquid interface and was surrounded with a Vs-and-Is-free recombination region (Rc-region), although the entire crystals had been Vs rich in the beginning. It was also revealed that the crystal on the solid-liquid interface after the prolonged contact with the melt can partially have a Rc-region to be directly in contact with the melt, unlike a defect distribution of a solid-liquid interface that has been growing. This experimental result contradicts a hypothesis of Voronkov's diffusion model, which always assumes the equilibrium concentrations of Vs and Is as the boundary condition for distribution of point defects on the growth interface. The results were disscussed from a qualitative point of view of temperature distribution and thermal stress by the pulling-stop.

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