低温运行对采用STI前后工艺制造的长通道应变Ge pfinfet的影响

2016 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) Pub Date : 1900-01-01 DOI:10.1109/S3S.2016.7804384

Alberto V. de Oliveira, E. Simoen, Paula Ghedini Der Agopian, J. Martino, J. Mitard, L. Witters, N. Collaert, A. Thean, C. Claeys

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引用次数: 5

摘要

作为Si平台集成的未来候选器件之一，Ge pFinFET在低温下对两种不同的浅沟隔离(STI)工艺进行了评估。据报道，由于通道中的压缩应变，两种STI工艺在77 K下的有效迁移率约为700 cm2/Vs。对于关闭状态区域，发现衬底电流在室温和长通道下起重要作用。从室温到200k，只要从漏极到本体的pn结反向电流占衬底电流的主导地位，它就会减少三个数量级。

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Impact of the low temperature operation on long channel strained Ge pFinFETs fabricated with STI first and last processes

One of future device candidates for the Si platform integration, the Ge pFinFET, is evaluated for two different shallow-trench-isolation (STI) processes at low temperature operation. The effective mobility around 700 cm2/Vs at 77 K is reported for both STI processes, as a result of the compressive strain in the channel. Regarding the OFF-state region, it is found that the substrate current plays an important role at room temperature and for long channels. It decreases up to three orders of magnitude from room temperature down to 200 K, as long as the p-n junction reverse current from the drain to bulk dominates the substrate current.

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2016 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S)

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