非对称源漏扩展晶体管结构，用于高性能低于50 nm栅极长度的CMOS器件

2001 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.01 CH37184) Pub Date : 2001-06-12 DOI:10.1109/VLSIT.2001.934925

T. Ghani, K. Mistry, P. Packan, M. Armstrong, S. Thompson, S. Tyagi, M. Bohr

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引用次数: 23

摘要

在本文中，我们首次提出了一种非对称源/漏极扩展(SDE)晶体管结构，该结构可以实现低于50 nm的高I/sub DSAT/栅极尺寸。我们证明，当栅极到源极/漏极的重叠尺寸减小到20 nm/侧以下时，这种结构减轻了文献中报道的器件严重的I/sub DSAT/退化(Thomson等，1998)。小于15纳米栅极与源极/漏极重叠是支持小于50纳米栅极尺寸的强制性要求(Ghani等，2000)。此外，该结构的制造采用标准工艺流程，其中SDE区域通过离子注入和随后的驱动退火形成。介绍了非对称SDE晶体管器件操作的基本原理，随后描述了工艺流程，并深入分析了电特性和相关权衡。

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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Asymmetric source/drain extension transistor structure for high performance sub-50 nm gate length CMOS devices

In this paper, we present for the first time an asymmetric source/drain extension (SDE) transistor structure which can achieve high I/sub DSAT/ at gate dimensions below 50 nm. We demonstrate that this structure alleviates the severe I/sub DSAT/ degradation reported in the literature for devices when gate to source/drain overlap dimensions are reduced to under 20 nm/side (Thomson et al, 1998). Sub-15 nm gate to source/drain overlap is mandatory for supporting gate dimensions below 50 nm (Ghani et al, 2000). Moreover, fabrication of this structure employs a standard process flow in which SDE regions are formed by ion implantation and a subsequent drive-in anneal. Fundamental principles of device operation of the asymmetric SDE transistor are presented followed by a description of the process flow and an in-depth analysis of electrical characteristics and associated trade-offs.

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2001 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.01 CH37184)

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