45纳米CMOS器件的SPER结优化

The Fourth International Workshop on Junction Technology, 2004. IWJT '04. Pub Date : 2004-03-15 DOI:10.1109/IWJT.2004.1306762

R. Lindsay, S. Severi, B. Pawlak, K. Henson, A. Lauwers, X. Pagès, A. Satta, R. Surdeanu, H. Lendzian, K. Maex

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引用次数: 8

摘要

通过固相外延再生(SPER)形成的超浅结已经被证明比传统的尖峰退火产生更好的结轮廓。然而，残留的损伤会降低晶体管性能的各个方面，抵消由于结型而得到的任何改进。在这项工作中，我们着眼于优化结和通道条件，以满足45纳米CMOS节点的掺杂物分布和晶体管要求。我们展示了优化的结植入和低温SPER尖峰退火如何进一步提高结的激活水平和轮廓。在器件中，我们展示了SPER处理对衬底和栅掺杂的影响。这包括结重叠，通道失活，接触电阻，结漏，聚耗尽和栅极漏。我们解决了pMOS和nMOS的这些问题，并确定了器件中SPER的主要优点和缺点。

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SPER junction optimisation in 45 nm CMOS devices

Ultra-shallow junction formation by solid phase epitaxial regrowth (SPER) has been shown to produce excellent junction profiles beyond that of conventional spike annealing. However residual damage can degrade various aspects of the transistor performance, annihilating any:improvement due to the junction profile. In this work we look at optimizing the junction and channel conditions to meet the dopant profile and transistor requirements for the 45 nm CMOS node. We show how an optimised junction implant and low temperature SPER spike anneal can further increase the activation level and profile of the junction. In devices we show results on the effect of SPER processing on both the substrate and gate doping. This includes junction overlap, channel deactivation, contact resistance, junction leakage, poly depletion, and gate leakage. We address each of these concerns for both pMOS and nMOS and identify what are the main strengths and weaknesses of SPER in devices.

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The Fourth International Workshop on Junction Technology, 2004. IWJT '04.

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