Effects of beam incident angle control on NMOS source/drain extension applications

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1257939

Ukyo Jeong Ukyo Jeong, S. Mehta, C. Campbell, R. Lindberg, Zhiyong Zhao Zhiyong Zhao, B. Cusson, J. Buller

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引用次数: 16

Abstract

As CMOS device technology is scaled in pursuit of ever improving circuit performance requirements, ion implant processing must meet the demands imposed by this device scaling. Control of beam incident angle on high current implanters is one unprecedented criterion imposed on modern ion implant doping technology. While other implant doping characteristics can be easily evaluated using bare wafer analysis techniques, the angular integrity of the ion beam cannot. Shadowing is one consequence of the uncontrolled beam incident angle that leads to dose inaccuracy at the microscopic scale in device regions of interest. Such effects can only be evaluated in association with their device performance. This paper describes the effects of beam incident angle control on source/drain extension (SDE) doping for a state-of-the-art CMOS transistor technology. Device characteristics were measured and analyzed to evaluate the ion beam shadowing effects at an individual device level. This paper also suggests the level of angle control required in ion implant systems based on device characterization results.

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光束入射角控制对NMOS源漏扩展应用的影响

随着CMOS器件技术的不断扩展以追求不断提高的电路性能要求，离子植入处理必须满足这种器件扩展的要求。大电流注入体光束入射角的控制是现代离子注入体掺杂技术中一个前所未有的标准。而其他植入物掺杂特性可以很容易地评估使用裸晶片分析技术，离子束的角度完整性不能。阴影是一个后果不受控制的光束入射角，导致剂量不准确在微观尺度上感兴趣的设备区域。这些影响只能与它们的设备性能相关联来评估。本文描述了一种新型CMOS晶体管技术中光束入射角控制对源漏扩展(SDE)掺杂的影响。测量和分析了器件特性，以评估单个器件水平上的离子束阴影效应。本文还提出了基于器件表征结果的离子植入系统所需的角度控制水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on

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