4 February 2013 Ultra-short channel field effect transistors based on Ge/Si core/shell nanowires
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Abstract
In recent years, transistor technology has scaled down to sub-20 nm channel length with many performance-boosting techniques at the material and device levels in order to meet the increasing demand for higher performance electronics. The nanowire (NW) device architecture has proven itself as a viable candidate for the sub-20 nm generation transistors. Compared to Si NWs, the Ge/Si core/shell NW alternative can supply larger on-current due to the increased confined hole mobility and ohmic behavior at the Ni-alloyed drain/source contacts. It is thus important to understand transport mechanisms in this core/shell structure, and develop pathway to realize ultra-short channel core/shell NW field effect transistors (FETs). In this paper, we report the growth of Ge/Si concentric NWs with precise control of Si shell thickness. Performance of FETs fabricated from core/shell NWs exhibited a clear dependence on NWs’ diameters, with steeper sub-threshold slopes for smaller NWs. An 18 nm diameter Ge/Si heterostructure FET exhibited sub-threshold swing of 102 mV/decade, with a maximum transconductance of 3.4 μS at VDS =-100 mV. Finally, transmission electron microscopy was utilized to monitor and control the solid state reaction between Ni contacts and Ge/Si NWs, resulting in ultrascaled channel lengths, as short as 5 nm.
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Binh-Minh Nguyen, Yang Liu, Wei Tang, S. Tom Picraux, Shadi A. Dayeh, "Ultra-short channel field effect transistors based on Ge/Si core/shell nanowires", Proc. SPIE 8631, Quantum Sensing and Nanophotonic Devices X, 863118 (4 February 2013); doi: 10.1117/12.2008676; https://doi.org/10.1117/12.2008676
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