Tensile-Strained Germanium CMOS Integration on Silicon

Zang H.; Loh W.Y.; Ye J.D.; Lo G.Q.; Byung Jin Cho

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Tensile-Strained Germanium CMOS Integration on Silicon

机译：硅上的拉伸应变锗CMOS集成

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Monolithic integration of tensile-strained Si/ Germanium (Ge)-channel n-MOS and tensile-strained Ge p-MOS with ultrathin (equivalent oxide thickness ~14 Aring) HfO2 gate dielectric and TaN gate stack on Si substrate is demonstrated. Defect-free Ge layer (279 nm) grown by ultrahigh vacuum chemical-vapor deposition is achieved using a two-step Ge-growth technique coupled with compliant Si/SiGe buffer layers. The epi-Ge layer experiences tensile strain of up to ~0.67% and exhibits a peak hole mobility of 250 cm2/V ldr s which is 100% higher than the universal Si hole mobility. The gate leakage current is two orders of magnitude lower compared to the reported results on Ge bulk.

机译：展示了拉伸应变的Si /锗（Ge）沟道n-MOS和拉伸应变的Ge p-MOS与超薄HfO2栅电介质和TaN栅堆叠在Si衬底上的单片集成。超高真空化学气相沉积法生长的无缺陷Ge层（279 nm）是通过两步Ge增长技术与顺应性Si / SiGe缓冲层耦合而实现的。 Epi-Ge层承受的拉伸应变高达〜0.67％，并表现出250 cm2 / V ldr s的峰值空穴迁移率，比通用Si空穴迁移率高100％。栅极漏电流与报告的Ge体积相比要低两个数量级。

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来源
《IEEE Electron Device Letters》 |2007年第12期|p.1117-1119|共3页
作者
Zang H.; Loh W.Y.; Ye J.D.; Lo G.Q.; Byung Jin Cho;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类一般性问题;
关键词
CMOS integrated circuits; elemental semiconductors; germanium; Ge; Interface; Si; Interface; defect-free Ge ultrahigh vacuum chemical-vapor deposition; monolithic integration; peak hole mobility; silicon; tensile-strained germanium CMOS; two-step Ge-growth techn;

机译：CMOS集成电路;元素半导体;锗;Ge;Interface;Si;Interface;无缺陷的Ge超高真空化学气相沉积;单片集成;峰空穴迁移率;硅;拉伸应变锗CMOS;两步Ge生长技术;

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Tensile-Strained Germanium CMOS Integration on Silicon

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