Effect of Chamber Conditions and Substrate Type on PECVD of SiGeSn Films

V. Hariharan, Jignesh Vanjaria, A. Arjunan, G. Tompa, Hongbin Yu
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Abstract

In the past studies have shown that the addition of Ge and Sn into Si lattice to form SiGeSn enhances its carrier mobility and band-gap properties. Conventionally SiGeSn epitaxial films are grown using Ultra-High Vacuum (UHV) conditions with pressures ranging from 10-8 torr to 10-10 torr which makes high volume manufacturing very expensive. On the contrary, the use of low-pressure CVD processes (vacuum levels of 10-2 torr to 10-4 torr) is economically more viable and yields faster deposition of SiGeSn films. This study outlines the use of a cost-effective Plasma Enhanced Chemical Vapor Deposition (PECVD) reactor to study the impact of substrate temperature and substrate type on the growth and properties of polycrystalline SiGeSn films. The onset of polycrystallinity in the films is attributed to the oxygen-rich PECVD chamber conditions explained using the Volmer-Weber (3D island) mechanism. The properties of the films were characterized using varied techniques to understand the impact of the substrate on film composition, thickness, crystallinity, and strain.
腔室条件和衬底类型对SiGeSn薄膜PECVD的影响
过去的研究表明,在Si晶格中加入Ge和Sn形成SiGeSn可以增强其载流子迁移率和带隙性能。传统的SiGeSn外延膜是在超高真空(UHV)条件下生长的,压力范围从10-8到10-10 torr,这使得大批量生产非常昂贵。相反,使用低压CVD工艺(真空水平为10-2托至10-4托)在经济上更可行,并且可以更快地沉积SiGeSn薄膜。本研究概述了使用具有成本效益的等离子体增强化学气相沉积(PECVD)反应器来研究衬底温度和衬底类型对多晶SiGeSn薄膜生长和性能的影响。薄膜中多结晶性的开始归因于富氧PECVD室条件,使用Volmer-Weber (3D岛)机制解释。利用不同的技术表征了薄膜的性质,以了解衬底对薄膜组成、厚度、结晶度和应变的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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