先进沟道形成技术对UTB GeOI pmosfet性能的显著提升

2018 IEEE Symposium on VLSI Technology Pub Date : 2018-06-01 DOI:10.1109/VLSIT.2018.8510664

W. Chang, T. Irisawa, H. Ishii, H. Hattori, N. Uchida, T. Maeda

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引用次数: 3

摘要

利用si钝化/Ge通道/SiGe异质外延和Ge数字刻蚀(DE)技术对UTB GeOI结构实现了先进的沟道形成技术，如精确控制GeOI体厚度(Tbody)、表面粗糙度和界面质量。由于界面质量较好，Ge/BOX界面的Si钝化可以抑制库仑散射。发现SiGe刻蚀停止层(ES)和数十个DE (DDE)的插入对降低体波动和表面粗糙度非常有效，从而显著提高了迁移率。因此，我们在没有应变技术的情况下，在UTB GeOI pmosfet中展示了创纪录的~200 cm2/Vs的高空穴迁移率，即使在9 nm下也比Si的通用迁移率高出2倍。

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Significant Performance Enhancement of UTB GeOI pMOSFETs by Advanced Channel Formation Technologies

Advanced channel formation technologies, such as precise control of GeOI body thickness (Tbody), surface roughness and interfacial quality, utilizing Si-passivation/Ge-channel/SiGe hetero-epitaxy and Ge digital etching (DE) techniques were implemented for UTB GeOI structure. Si passivation for Ge/BOX interface has been verified to suppress Coulomb scattering owing to better interfacial quality. Insertion of SiGe etching stop (ES) layer and dozens DE (DDE) were found to be quite effective to reduce Tbody fluctuation as well as surface roughness, resulting in the significant improvement of mobility. As a result, we have demonstrated record high hole mobility of ~200 cm2/Vs in UTB GeOI pMOSFETs without the strain technology, which outperforms Si universal mobility by 2 times even under Tbody of 9 nm.

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2018 IEEE Symposium on VLSI Technology

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