高性能低于50纳米CMOS与先进的栅极堆栈

2001 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.01 CH37184) Pub Date : 2001-06-12 DOI:10.1109/VLSIT.2001.934928

Q. Xiang, B. Yu, H. Wang, M. Lin

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引用次数: 8

摘要

采用由超薄氮化物/氧氮化物(N/O)堆叠栅极介质、预掺杂双多晶硅栅极和NiSi组成的先进栅极堆，制备了40nm L/sub栅极的CMOS器件。栅极堆栈采用栅极介电介质低至9 /spl /等效氧化厚度(EOT)，栅极R/sub /s /低于3 /spl ω //sq。NiSi不仅可以提高栅极R/sub s/和s/ D R/sub sd/，还可以通过减少硅化过程中掺杂的失活来降低反转T/sub ox/。因此，NiSi对N-和P-MOS的I/sub - sat/改善约为8%。具有先进栅极堆栈的CMOS器件也显示出非常高的性能。在V/sub / dd为0.9 V时，NMOS的驱动电流为657 /spl mu/A/um, PMOS的驱动电流为290 /spl mu/A/um。这些设备数据是迄今为止最好的报告之一。可靠性评估表明，在工作电压为0.9 V时，超薄N/O堆叠膜的使用寿命超过20年。

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High performance sub-50 nm CMOS with advanced gate stack

CMOS devices down to 40 nm L/sub gate/ were fabricated with an advanced gate stack consisting of ultra-thin nitride/oxynitride (N/O) stack gate dielectrics, pre-doped dual poly-Si gates, and NiSi. The gate stack employed gate dielectric down to 9 /spl Aring/ equivalent oxide thickness (EOT) and achieved very low gate R/sub s/ below 3 /spl Omega//sq. NiSi not only improves gate R/sub s/ and S/D R/sub sd/, but reduces inversion T/sub ox/ by minimizing dopant deactivation during silicidation. Consequently, about 8% I/sub dsat/ improvement for both N- and P-MOS are observed with NiSi. The CMOS devices with the advanced gate stack also showed very high performance. At V/sub dd/ of 0.9 V, drive currents of 657 /spl mu/A/um for NMOS and 290 /spl mu/A/um for PMOS are obtained at off-state leakage of 100 nA/um. These device data are among the best reported to date. Reliability evaluation shows more than 20 years lifetime for the ultra-thin N/O stack films at operating voltage of 0.9 V.

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来源期刊

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

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