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Impact of Additional Factors in Threshold Voltage Variability of Metal/High-k Gate Stacks and Its Reduction by Controlling Crystalline Structure and Grain Size in the Metal Gates

机译：金属/高k栅极堆栈阈值电压变异性中额外因素的影响及其通过控制金属门中的晶体结构和晶粒尺寸

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We have clarified that, in a metal/high-k gate stack, as well as the variability introduced by random dopant fluctuations (RDF), the threshold voltage variability (TVV) is attributable to the crystal structure and grain size in the metal gate. We have successfully eliminated this additional factor by reducing the grain size in the metal gate. We demonstrated that the incorporation of C into TiN metal gates transforms the crystalline film into an amorphous one, effecting a reduction in the TVV in HfSiON pFET devices. We observed that the TVV of C-incorporated TiN devices was dominated by RDF, indicating that the additional factor due to the metal gate had been diminished.

机译：我们已经阐明了金属/高k门堆叠，以及随机掺杂剂波动（RDF）引入的可变性，阈值电压变化（TVV）可归因于金属栅极中的晶体结构和晶粒尺寸。我们通过减少金属栅极中的晶粒尺寸来成功消除了这一额外因素。我们证明将C掺入锡金属栅极将结晶膜转化为无定形物，在HFSION PFET器件中效果减少TVV。我们观察到，C合并的锡器件的TVV由RDF主导，表明由于金属栅极引起的额外因素被降低。

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《International Electron Devices Meeting》|2008年||共4页
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K. Ohmori; T. Matsuki; D. Ishikawa; T. Morooka; T. Aminaka; Y. Sugita; T. Chikyow; K. Shiraishi; Y. Nara; K. Yamada;
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Impact of Additional Factors in Threshold Voltage Variability of Metal/High-k Gate Stacks and Its Reduction by Controlling Crystalline Structure and Grain Size in the Metal Gates

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