Improved short-channel n-FET performance with virtual extensions

Extended Abstracts of the Fifth International Workshop on Junction Technology Pub Date : 2005-06-07 DOI:10.1109/IWJT.2005.203896
D. Connelly, C. Faulkner, P. Clifton, D. Grupp
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Abstract

A method is presented to use electrostatic coupling from a metal of appropriate effective workfunction, separated from the extension region by a thin insulator, to create a "virtual extension" in doped source/drain (S/D) MOSFETs. This electrostatically induced charge layer allows for lower extension doping and increased underlap between the doped extension and the gate, "sharpening" the carrier profile and improving short-channel device performance. In a typical n-channel MOSFET, switching currents in clock-limiting circuit paths are predicted to be 24% higher.
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通过虚拟扩展改进短通道n-FET性能
本文提出了一种在掺杂源极/漏极(S/D) mosfet中,利用具有适当有效工作功能的金属与延伸区通过薄绝缘体隔开的静电耦合来产生“虚拟延伸”的方法。这种静电诱导电荷层允许较低的延伸掺杂和增加掺杂延伸与栅极之间的underlap,“锐化”载流子轮廓并改善短通道器件性能。在典型的n沟道MOSFET中,时钟限制电路路径中的开关电流预计要高出24%。
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Extended Abstracts of the Fifth International Workshop on Junction Technology
Extended Abstracts of the Fifth International Workshop on Junction Technology
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