Title :
Optimization of Gate-on-Source-Only Tunnel FETs With Counter-Doped Pockets
Author :
Kao, Kuo-Hsing ; Verhulst, Anne S. ; Vandenberghe, William G. ; Sorée, Bart ; Magnus, Wim ; Leonelli, Daniele ; Groeseneken, Guido ; De Meyer, Kristin
Author_Institution :
Interuniv. Microelectron. Center, Leuven, Belgium
Abstract :
We investigate a promising tunnel FET configuration having a gate on the source only, which is simultaneously exhibiting a steeper subthreshold slope and a higher ON-current than the lateral tunneling configuration with a gate on the channel. Our analysis is performed based on a recently developed 2-D quantum-mechanical simulator calculating band-to-band tunneling and including quantum confinement (QC). It is shown that the two disadvantages of the structure, namely, the sensitivity to gate alignment and the physical oxide thickness, are mitigated by placing a counter-doped parallel pocket underneath the gate-source overlap. The pocket also significantly reduces the field-induced QC. The findings are illustrated with all-Si and all-Ge gate-onsource-only tunnel field-effect transistor simulations.
Keywords :
field effect transistors; tunnel transistors; 2D quantum mechanical simulator; band-to-band tunneling; counter-doped parallel pocket; counter-doped pockets; gate-on-source-only tunnel FET; gate-source overlap; optimization; quantum confinement; subthreshold slope; tunnel FET configuration; tunnel field effect transistor simulation; tunneling configuration; Doping; Electric potential; FETs; Logic gates; Semiconductor process modeling; Solids; Tunneling; Fringing field; gate-on-source-only (GoSo); quantum confinement (QC); tunnel field-effect transistor (TFET); vertical tunneling;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2012.2200489
