Suppression of Anomalous Gate Edge Leakage Current by Control of Ni Silicidation Region using Si Ion Implantation Technique

2006 International Electron Devices Meeting Pub Date : 2006-12-01 DOI:10.1109/IEDM.2006.346916
T. Yamaguchi, K. Kashihara, T. Okudaira, T. Tsutsumi, K. Maekawa, T. Kosugi, N. Murata, J. Tsuchimoto, K. Shiga, K. Asai, M. Yoneda
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引用次数: 12

Abstract

It is reported for the first time that the anomalous gate edge leakage current in NMOSFETs is caused by the lateral growth of Ni silicide toward the channel region, and this lateral growth is successfully suppressed by the control of the Ni silicidation region using the Si ion implantation (Si I.I.) technique. As a result, the anomalous gate edge leakage current is successfully reduced, and the standby current and yield for 65nm-node SRAM are greatly improved. This novel technique has high potential for 45nm and 32nm CMOS technology
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用硅离子注入技术控制Ni硅化区抑制异常栅边漏电流
本文首次报道了nmosfet中异常栅边漏电流是由硅化镍向沟道区侧向生长引起的,并且利用硅离子注入(Si I.I.)技术控制了硅化镍区,成功抑制了这种侧向生长。成功地减小了异常栅边漏电流,大大提高了65nm节点SRAM的待机电流和良率。该技术在45nm和32nm CMOS技术中具有很高的应用潜力
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2006 International Electron Devices Meeting
2006 International Electron Devices Meeting
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