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Low-energy Nitrogen Plasmas for 65-nm node Oxynitride Gate Dielectrics A Correlation of Plasma Characteristics and Device Parameters

机译：65-NM节点的低能氮等离子体氧互联网电介质介质等离子体特性和装置参数的相关性

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Ultra-thin oxynitride gate dielectrics (EOT 1.1 to 1.2 nm) have been prepared using quasi-remote inductively coupled nitrogen plasmas. A correlation has been established, for the first time, between device characteristics and measurements of the nitrogen plasma characteristics. It is found that reducing the density of high-energy electrons in the plasma results in 5% improved electron and hole low-field mobilities and 100% improved NBTI reliability. These improvements in plasma nitridation technology enable the extension of oxynitride gate dielectrics to the 65-nm technology node specifications.

机译：使用准远程电感耦合的氮气等离子体制备超薄氧氮化物栅极电介质（EOT 1.1至1.2nm）。首次在氮等离子体特性的装置特性和测量之间建立了相关性。发现降低了等离子体中的高能量电子的密度导致了5％改善的电子和孔低场迁移率和100％提高了NBTI可靠性。这些改进等离子体氮化技术使氮化物栅极电介质的延伸能够延伸到65nm技术节点规格。

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《Symposium on VLSI Technology》|2003年||共2页
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作者
P. A. Kraus; K. Ahmed; T. C. Chua; M. Ershov; H. Karbasi; C. S. Olsen; F. Nouri; J. Holland; R. Zhao; G. Miner; A. Lepert;
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中图分类 TN47-53;
关键词
Plasma nitridation; Oxynitride gate dielectric; Electron temperature; Effective carrier mobility; NBTI;

机译：等离子体氮化;氧氮化物栅极电介质;电子温度;有效的载流动性;NBTI;

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1. Gate stack technology for advanced high-mobility Ge-channel metal-oxide-semiconductor devices - Fundamental aspects of germanium oxides and application of plasma nitridation technique for fabrication of scalable oxynitride dielectrics [J] . Watanabe H., Kutsuki K., Kasuya A., Current applied physics: the official journal of the Korean Physical Society . 2012,第Suppla3期

机译：先进的高迁移率Ge通道金属氧化物半导体器件的栅堆叠技术-锗氧化物的基本方面以及等离子氮化技术在可扩展氮氧化物电介质制造中的应用
2. Plasma-assisted chemical vapor deposited silicon oxynitride as an alternative material for gate dielectric in MOS devices [J] . A. Szekeres, T. Nikolova, S. Simeonov, Microelectronics journal . 2006,第1期

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3. Excellent electrical and reliability characteristics of 11 A oxynitride gate dielectrics by remote plasma nitridation treatment [J] . Tung-Ming Pan Applied Physics Letters . 2006,第11期

机译：通过远程等离子体氮化处理，具有出色的11 A氮氧化物栅极电介质的电气和可靠性特性
4. Low-energy nitrogen plasmas for 65-nm node oxynitride gate dielectrics: a correlation of plasma characteristics and device parameters [C] . Kraus, P.A., Ahmed, . 2003

机译：用于65 nm节点氧氮化物栅极电介质的低能氮等离子体：等离子体特性与器件参数的相关性
5. THERMAL NITRIDATION OF SILICON IN ACTIVE NITROGEN (THIN DIELECTRICS, PLASMA PROCESSING, VLSI MATERIALS, SILICON-NITRIDE, SILICON-OXYNITRIDE) [D] . GIRIDHAR, R. V. 1985

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7. Characteristics of Hafnium Oxide Gate Dielectrics Deposited by Remote Plasma-enhanced Atomic Layer Deposition using Oxygen Plasma [O] . Seung-Chan Cho, Hyeong-Tag Jeon, Yang-Do Kim 2007

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Low-energy Nitrogen Plasmas for 65-nm node Oxynitride Gate Dielectrics A Correlation of Plasma Characteristics and Device Parameters

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