新型Si-SiGe pMOSFET的二维带隙工程，具有增强的器件性能和可扩展性

2000 International Conference on Simulation Semiconductor Processes and Devices (Cat. No.00TH8502) Pub Date : 1900-01-01 DOI:10.1109/SISPAD.2000.871230

Q. Ouyang, X.D. Chen, S. Mudanai, D. Kencke, X. Wang, A. Tasch, L. Register, S. Banerjee

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引用次数: 2

摘要

二维器件仿真用于探索带隙工程在提高器件性能和可扩展性方面的应用。在源极和/或漏极中具有应变SiGe的异质结pmosfet可以有效抑制短通道效应，包括在具有高k栅极介质/间隔层的器件中场致势垒降低。尽管存在源端速度超调，但由于通道中的异质障碍，这些器件中的驱动电流减小了。这个缺点可以通过使用薄的Si或SiGe帽层来消除。最后，提出了一种具有SiGe源极漏极和SiGe量子阱通道的新型pMOSFET。降低了SCE，提高了驱动电流。

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Two-dimensional bandgap engineering in a novel Si-SiGe pMOSFET with enhanced device performance and scalability

Two-dimensional device simulations are used to explore the applications of bandgap engineering in improving device performance and scalability. Heterojunction pMOSFETs with strained SiGe in the source and/or drain have substantially suppressed short-channel effects, including field-induced barrier lowering in the devices with high-k gate dielectrics/spacers. Despite the source-side velocity overshoot, the drive currents in these devices are reduced due to the hetero-barriers in the channel. This drawback can be eliminated by the use of a thin Si or SiGe cap layer. Finally, a novel pMOSFET with a SiGe source/drain and a SiGe quantum well channel is proposed. It has reduced SCE and enhanced drive current.

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2000 International Conference on Simulation Semiconductor Processes and Devices (Cat. No.00TH8502)

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