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http://dx.doi.org/10.5573/JSTS.2016.16.5.630

Quantum Simulation Study on Performance Optimization of GaSb/InAs nanowire Tunneling FET  

Hur, Ji-Hyun (Compound Device Laboratory, Samsung Advanced Institute of Technology)
Jeon, Sanghun (Department of Applied Physics, Korea University)
Publication Information
JSTS:Journal of Semiconductor Technology and Science / v.16, no.5, 2016 , pp. 630-634 More about this Journal
Abstract
We report the computer aided design results for a GaSb/InAs broken-gap gate all around nanowire tunneling FET (TFET). In designing, the semi-empirical tight-binding (TB) method using $sp3d5s^*$ is used as band structure model to produce the bulk properties. The calculated band structure is cooperated with open boundary conditions (OBCs) and a three-dimensional $Schr{\ddot{o}}dinger$-Poisson solver to execute quantum transport simulators. We find an device configuration for the operation voltage of 0.3 V which exhibit desired low sub-threshold swing (< 60 mV/dec) by adopting receded gate configuration while maintaining the high current characteristic ($I_{ON}$ > $100 {\mu}A/{\mu}m$) that broken-gap TFETs normally have.
Keywords
Tunneling field effect transistor; GaSb; InAs; nanowire; quantum transport;
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1 A. M. Ionescu and H. Riel, Nature 479, 329 (2011).   DOI
2 B. M. Borg, K. A. Dick, B. Ganjipour, M.-E. Pistol, L.-E. Wernersson, and C. Thelander, Nano letters 10, 4080 (2010).   DOI
3 G. Zhou et al., in Electron Devices Meeting (IEDM), 2012 IEEE International (IEEE, 2012), 32.6.1 (2012).
4 J. Knoch and J. Appenzeller, Electron Device Letters, IEEE 31, 305 (2010).   DOI
5 A. W. Dey, B. M. Borg, B. Ganjipour, M. Ek, K. A. Dick, E. Lind, C. Thelander, and L.-E. Wernersson, Electron Device Letters, IEEE 34, 211 (2013).   DOI
6 M. Luisier and G. Klimeck, in Electron Devices Meeting (IEDM), 2009 IEEE International (IEEE, 2009), 1 (2009)
7 K. Boucart and A. M. Ionescu, Electron Devices, IEEE Transactions on 54, 1725 (2007).   DOI
8 W. Y. Choi and W. Lee, Electron Devices, IEEE Transactions on 57, 2317 (2010).   DOI
9 S. Steiger, M. Povolotskyi, H.-H. Park, T. Kubis, and G. Klimeck, Nanotechnology, IEEE Transactions on 10, 1464 (2011).   DOI
10 M. Luisier, A. Schenk, W. Fichtner, and G. Klimeck, Physical Review B 74, 205323 (2006).   DOI
11 S. Datta, Superlattices and microstructures 28, 253 (2000).   DOI
12 J. Robertson, The European Physical Journal Applied Physics 28, 265 (2004).   DOI