Significantly Improving Sub-90 Nm Cmosfet Performances With Notch-gate Enhanced High Tensile-stress Contact Etch Stop Layer

Chia-Wei Hsu; Yean-Kuen Fang; Wen-Kuan Yeh; Chien-Ting Lin

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Significantly Improving Sub-90 Nm Cmosfet Performances With Notch-gate Enhanced High Tensile-stress Contact Etch Stop Layer

机译：缺口门增强的高拉伸应力接触蚀刻停止层可显着提高90 Nm以下的Cmosfet性能

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This paper reports to improve performances of sub-90 nm CMOSFETs with a notch-gate structure enhanced high tensile-stress contact etch stop layer (CESL). Compared to the conventional vertical-gate CMOSFET with an additional offset spacer, the developed structure has the notch-gate as self-aligned offset spacer and lower parasitic capacitance. Beside, the notch-gate shrinks the distance of the CESL to the channel, thus enhances the channel carrier mobility more efficiently. Consequently, an n-MOSFET with this notch-gate structure showed an extra 7% I_(ON) enhancement. For p-MOSFETs, even a tensile-stress is not preferable, however, with the structure, an extra 3% I_(ON) enhancement was still achieved due to the better channel profile by halo implantation through notch-gate structure.

机译：本文报道了采用缺口栅结构增强了高拉伸应力接触蚀刻停止层（CESL）的90 nm以下CMOSFET的性能。与具有附加失调隔离物的常规垂直栅CMOSFET相比，开发的结构具有陷波栅作为自对准失调隔离物和较低的寄生电容。此外，陷波门缩小了CESL与通道的距离，从而更有效地增强了通道载波的移动性。因此，具有这种陷波栅结构的n-MOSFET显示出7％的I_（ON）增强。对于p-MOSFET，即使是拉伸应力也不是优选的，但是，由于通过槽口结构进行晕环注入获得了更好的沟道轮廓，因此采用该结构仍可获得额外的3％I_（ON）增强。

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《Microelectronics reliability》 |2008年第12期|1791-1794|共4页
作者
Chia-Wei Hsu; Yean-Kuen Fang; Wen-Kuan Yeh; Chien-Ting Lin;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
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正文语种 eng
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专利

1. The Geometry Effect of Contact Etch Stop Layer Impact on Device Performance and Reliability for 90-nm SOI nMOSFETs [J] . Lai C.-M., Fang Y.-K., Lin C.-T., IEEE Transactions on Electron Devices . 2006,第期

机译：接触蚀刻停止层的几何效应对90nm SOI nMOSFET器件性能和可靠性的影响
2. Performance and interface characterization for contact etch stop layer-strained nMOSFET with HfO2 gate dielectrics under pulsed-IV measurement [J] . Wu WC, Chao TS, Chiu TH, Electrochemical and solid-state letters . 2008,第8期

机译：脉冲IV测量下具有HfO2栅极电介质的接触蚀刻停止层应变nMOSFET的性能和界面表征
3. Dielectric resolution enhancement coating technology (DiRECT) - a sub-90 nm space and hole patterning technology using 248-nm lithography and plasma-enhanced polymerization [J] . Ming-Chung Liang, Hsin-Yi Tsai, Chia-Chi Chung, IEEE Electron Device Letters . 2003,第9期

机译：介电分辨率增强涂层技术（DiRECT）-使用248 nm光刻技术和等离子增强聚合技术的低于90 nm的空间和孔图案化技术
4. Performance Enhancement for Strained HfO{sub}2 nMOSFET with Contact Etch Stop Layer (CESL) under Pulsed-IV Measurement [C] . Woei-Cherng Wu, Tien-Sheng Chao, Te-Hsin Chiu, IEEE Conference on ELectron Devices and Solid-State Circuits . 2007

机译：在脉冲 - IV测量下，具有触点蚀刻停止层（CESL）的紧张HFO {Sub} 2 NMOSFET的性能增强
5. Improved Contacts and Device Performance in MoS2 Transistors Using 2D Semiconductor Interlayers [D] . Andrews, Kraig . 2020

机译：使用2D半导体层间改进MOS2晶体管中的触点和装置性能
6. Enhancement of a-IGZO TFT Device Performance Using a Clean Interface Process via Etch-Stopper Nano-layers [O] . Jae-Moon Chung, Xiaokun Zhang, Fei Shang, 2018

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7. Enhancement of a-IGZO TFT Device Performance Using a Clean Interface Process via Etch-Stopper Nano-layers [O] . Jae-Moon Chung, Xiaokun Zhang, Fei Shang, 2018

机译：通过蚀刻停止纳米层使用清洁接口处理来增强A-IGZO TFT器件性能
8. Selective Dry Etch for Defining Ohmic Contacts for High Performance ZnO TFTs [R] . Herold, M L 2014

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Significantly Improving Sub-90 Nm Cmosfet Performances With Notch-gate Enhanced High Tensile-stress Contact Etch Stop Layer

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