Theoretical study of the SiO2/Si interface and its effect on energy band profile and MOSFET gate tunneling current

Zhu Huiwen; Liu Yongsong; Mao Lingfeng; Shen Jingqin; Zhu Zhiyan; Tang Weihua

doi:10.1088/1674-4926/31/8/082003

SEMICONDUCTOR PHYSICS

Theoretical study of the SiO₂/Si interface and its effect on energy band profile and MOSFET gate tunneling current

Zhu Huiwen¹, Liu Yongsong¹, Mao Lingfeng², Shen Jingqin¹, Zhu Zhiyan¹ and Tang Weihua¹

2010 Chinese Institute of Electronics
Journal of Semiconductors, Volume 31, Number 8 Citation Zhu Huiwen et al 2010 J. Semicond. 31 082003 DOI 10.1088/1674-4926/31/8/082003

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zhuhuiwen2008@gmail.com

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¹ Department of Physics, Center for Optoelectronics Materials and Devices, Zhejiang Sci-Tech University, Hangzhou 310018, China

² School of Electronics & Information Engineering, Soochow University, Suzhou 215021, China

Dates

Received 18 February 2010

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Abstract

Two SiO₂/Si interface structures, which are described by the double bonded model (DBM) and the bridge oxygen model (BOM), have been theoretically studied via first-principle calculations. First-principle simulations demonstrate that the width of the transition region for the interface structure described by DBM is larger than that for the interface structure described by BOM. Such a difference will result in a difference in the gate leakage current. Tunneling current calculation demonstrates that the SiO₂/Si interface structure described by DBM leads to a larger gate leakage current.

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