超过100纳米的CMOS器件

International Electron Devices Meeting 2000. Technical Digest. IEDM (Cat. No.00CH37138) Pub Date : 2000-12-10 DOI:10.1109/IEDM.2000.904300

S. Song, J. Yi, W.S. Kim, J.S. Lee, K. Fujihara, H. Kang, J. Moon, M.Y. Lee

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引用次数: 28

摘要

研究了超过100纳米的CMOS器件尺寸。回顾了有关扩容的问题和以前为解决这些问题所做的工作。利用未掺杂硅的选择性外延生长形成超陡逆行沟道，有效抑制了短沟道效应，提高了跨导性。氮化氧和氮化氮的堆叠栅介质抑制了硼的穿透，提高了驱动电流。研究了在大栅极漏电流条件下栅极氧化结垢晶体管的特性和可靠性问题。制备了L/sub gate/=70 nm和T/sub ox/=1.4 nm的高性能CMOS晶体管，在I/sub off/=10 nA//spl mu/m和V/sub dd/=1.2 V时，NMOS和PMOS的电流驱动分别为860 /spl mu/A/ spl mu/m和350 /spl mu/A/ spl mu/m。

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CMOS device scaling beyond 100 nm

CMOS device scaling beyond 100 nm has been investigated. Issues on scaling and previous works to solve them were reviewed. Super steep retrograde channel formation using selective epitaxial growth of undoped silicon effectively suppressed short channel effect and improved transconductance. The stack gate dielectrics of oxynitride and nitride suppressed boron penetration and improved drive currents. Transistor characteristics and reliability issues on gate oxide scaling were investigated in the regime of large gate leakage currents. High performance CMOS transistors of L/sub gate/=70 nm and T/sub ox/=1.4 nm were fabricated, which showed current drives of 860 /spl mu/A//spl mu/m (NMOS) and 350 /spl mu/A//spl mu/m (PMOS) at I/sub off/=10 nA//spl mu/m and V/sub dd/=1.2 V.

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International Electron Devices Meeting 2000. Technical Digest. IEDM (Cat. No.00CH37138)

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