High-performance strained-SOI CMOS devices using thin film SiGe-on-insulator technology

Mizuno T.; Sugiyama N.; Tezuka T.; Numata T.; Takagi S.

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High-performance strained-SOI CMOS devices using thin film SiGe-on-insulator technology

机译：使用绝缘体上薄膜SiGe技术的高性能应变SOI CMOS器件

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We have developed high-performance strained-SOI CMOS devices on thin film relaxed SiGe-on-insulator (SGOI) substrates with high Ge content (25%) fabricated by the combination of separation-by-implanted-oxygen (SIMOX) and internal-thermal-oxidation (ITOX) techniques without using SiGe buffer structures. The maximum enhancement of electron and hole mobilities of strained-SOI devices against the universal mobility amounts to 85 and 53%, respectively. On the other hand, we have also observed the reduction of carrier mobility in a thinner strained-Si layer or at higher vertical electric field conditions. For the first time, we have demonstrated a high-speed CMOS ring-oscillator using strained-SOI devices, and its improvement amounts to 63% at the supply voltage of 1.5 V, compared to control-SOI CMOS.

机译：我们已经开发出了高性能的应变SOI CMOS器件，该器件是通过结合注入氧分离（SIMOX）和内部氧隔离制造的，具有高Ge含量（25％）的薄膜绝缘体上SiGe（SGOI）衬底上热氧化（ITOX）技术，无需使用SiGe缓冲结构。应变SOI器件相对于通用迁移率的最大电子迁移率和空穴迁移率分别达到85％和53％。另一方面，我们还观察到在较薄的应变硅层中或在较高的垂直电场条件下载流子迁移率降低。我们首次展示了使用应变SOI器件的高速CMOS环形振荡器，与控制SOI CMOS相比，在1.5 V的电源电压下，其改进幅度达到63％。

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来源
《IEEE Transactions on Electron Devices》 |2003年第4期|p.988-994|共7页
作者
Mizuno T.; Sugiyama N.; Tezuka T.; Numata T.; Takagi S.;
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作者单位

Assoc. of Super-Advanced Electron. Technol., MIRAI Project, Kawasaki, Japan;

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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
中图分类无线电电子学、电信技术;
关键词
SIMOX; CMOS digital integrated circuits; carrier mobility; ion implantation; Ge-Si alloys; semiconductor materials; strained-SOI CMOS devices; thin film SiGe-on-insulator technology; separation-by-implanted-oxygen; SIMOX; internal-thermal-oxidation t;

机译：SIMOX;CMOS数字集成电路;承运人流动性;离子注入锗硅合金;半导体材料应变SOI CMOS器件;绝缘体上薄膜SiGe技术;植入氧分离SIMOX;内部热氧化;

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专利

1. Control of Threshold-Voltage and Short-Channel Effects in Ultrathin Strained-SOI CMOS Devices [J] . Toshinori Numata, Tomohisa Mizuno, Tsutomu Tezuka, IEEE Transactions on Electron Devices . 2005,第8期

机译：超薄应变SOI CMOS器件中的阈值电压和短通道效应的控制
2. An advanced Ge preamorphization salicide technology for ultra-thin-film SOI CMOS devices [J] . Hsiao T.C., Ping Liu IEEE Electron Device Letters . 1997,第7期

机译：用于超薄膜SOI CMOS器件的先进的Ge预非晶化自对准硅化物技术
3. High-performance devices for a 0.15- mu m CMOS technology [J] . Shahidi G.G., Warnock J. IEEE Electron Device Letters . 1993,第10期

机译：适用于0.15微米CMOS技术的高性能器件
4. High performance CMOS operation of strained-SOI MOSFETs using thin film SiGe-on-insulator substrate [C] . Mizuno, T., Sugiyama, . 2002

机译：使用绝缘体上的SiGe薄膜衬底的应变SOI MOSFET的高性能CMOS操作
5. Bipolar device characterization and design in CMOS technologies for the design of high-performance low-cost BiCMOS analog integrated circuits [D] . Larsen, Frode. 1994

机译：CMOS技术中的双极性器件表征和设计，用于设计高性能低成本BiCMOS模拟集成电路
6. Thin Film Complementary Metal Oxide Semiconductor (CMOS) Device Using a Single-Step Deposition of the Channel Layer [O] . Pradipta K. Nayak, J. A. Caraveo-Frescas, Zhenwei Wang, -1

机译：使用沟道层的单步沉积的薄膜互补金属氧化物半导体（CMOS）器件
7. Digital Autoradiography imaging using CMOS technology: First Tritium Autoradiography with a back-thinned CMOS detector and comparison of CMOS imaging performance with autoradiography film [O] . Cabello, J, Wells, K, Metaxas, A, 2007

机译：使用CMOS技术的数字自动放射线照相成像：第一款带有薄型CMOS检测器的Tri自动放射照相术，以及自动放射照相胶片与CMOS成像性能的比较
8. LDRD Final Report - Investigations of the impact of the process integration of deposited magnetic films for magnetic memory technologies on radiation-hardened CMOS devices and circuits - LDRD Project (FY99) [R] . 2000

机译：LDRD最终报告 - 研究沉积磁性薄膜在磁记忆技术上的工艺整合对辐射强化CmOs器件和电路的影响 - LDRD项目（FY99）

High-performance strained-SOI CMOS devices using thin film SiGe-on-insulator technology

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