Zr掺入对栅末HfO2栅介电nMOSFET的PBTI改善

Proceedings of Technical Program of 2012 VLSI Technology, System and Application Pub Date : 2012-04-23 DOI:10.1109/VLSI-TSA.2012.6210161

S. Deora, G. Bersuker, C. Young, J. Huang, K. Matthews, K. Ang, T. Nagi, C. Hobbs, P. Kirsch, R. Jammy

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引用次数: 1

摘要

与类似EOT的HfO2栅极介电器件相比，HfxZryO栅极介电低温全栅末制程nmosfet中的PBTI有所降低。在栅极电介质中快速和慢速电子捕获元件的共同框架内，成功地模拟了两个堆叠中的PBTI降解。快速成分归因于先前存在的高κ介电缺陷中的共振电子捕获，而缓慢的、温度相关的成分可归因于捕获电子向未占据的缺陷位置的迁移。Zr:HfO2叠层中较低的PBTI降解是由较小的快速电子捕获成分引起的。

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PBTI improvement in gate last HfO2 gate dielectric nMOSFET due to Zr incorporation

PBTI in the HfxZryO gate dielectric low temperature full gate last process flow nMOSFETs was demonstrated to be reduced compared to the HfO2 gate dielectric devices of a similar EOT. PBTI degradation in both stacks was successfully modeled within a common framework of fast and slow electron trapping components in the gate dielectrics. The fast component was assigned to the resonance electron trapping in the pre-existing high-κ dielectric defects while a slow, temperature dependent component could be attributed to the migration of the trapped electrons to unoccupied defect sites. Lower PBTI degradation in the Zr:HfO2 stack was shown to be caused by a smaller fast electron trapping component.

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Proceedings of Technical Program of 2012 VLSI Technology, System and Application

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