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Acheivement of Nano-Scale SiGe Layer with Discrete Ge Mole Fraction Profile Using Batch-Type HVCVD

Acheivement of Nano-Scale SiGe Layer with Discrete Ge Mole Fraction Profile Using Batch-Type HVCVD
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摘要 The strained Si grown on the relaxed SiGe-on-insulator C-MOSFET's is a promising device for the future system LSI devices with the design rule of sub-micron. The achievement of the discrete Ge mole fraction in the SiGe layer is a key engineering in low-temperature SiGe epitaxial growth using HVCVD. The pre-flow of GeH4 gas enhanced the Ge mole fraction and SiGe layer thickness. In addition, the Ge mole fraction and SiGe layer thickness increases with the gas ratio of GeH4/SiH4 + GeH4, process temperature, and gas flow time. However, the haze was produced if the Ge mole fraction is above 22wt%. The discrete-like Ge mole fraction with 22 wt% in 10 nm SiGe layer was obtained by the pre-flow of GeH4 for 10 s, the mixture gas ratio of GeH4/SiH4 + GeH4 of 67%, and the gas flow time for 150 s at the process temperature of 550 C.
作者 Gon-sub Lee Tae-hun Shim Jea-gun Park
机构地区 Advanced Semiconductor Material and Device Development Center
出处 《Journal of Rare Earths》 SCIE EI CAS CSCD 2004年第z2期178-182,共5页 稀土学报(英文版)
关键词 STRAINED Si nano scale SIGE LAYER Ge MOLE FRACTION HVCVD gas flow boat-out time
分类号 TG175 [金属学及工艺—金属表面处理]
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参考文献7

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Journal of Rare Earths
2004年 第z2期

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