Title :
Performance Enhancement of Tunnel Field-Effect Transistors by Synthetic Electric Field Effect
Author :
Morita, Yusuke ; Mori, Takayoshi ; Migita, S. ; Mizubayashi, W. ; Tanabe, A. ; Fukuda, Kenji ; Matsukawa, T. ; Endo, Kazuhiro ; O´uchi, S. ; Yong Xun Liu ; Masahara, M. ; Ota, Hiroyuki
Author_Institution :
Green Nanoelectron. Center, Nanoelectron. Res. Inst., Tsukuba, Japan
Abstract :
In this letter, we propose a synthetic electric field (SE) effect to enhance the performance of tunnel field-effect transistors (TFETs). The novel SE-TFET architecture utilizes both horizontal and vertical electric fields induced by a gate electrode that is wrapped around an ultrathin epitaxial channel. The drain current of the SE-TFET is increased up to 100 times in comparison with those of conventional TFETs. The subthreshold slope of the SE-TFET also improved, and enhanced to 52 mV/decade by scaling the channel width and channel thickness.
Keywords :
epitaxial growth; field effect transistors; tunnel transistors; drain current; electric fields; gate electrode; performance enhancement; subthreshold slope; synthetic electric field effect; tunnel field effect transistors; ultrathin epitaxial channel; Electrodes; Epitaxial growth; Logic gates; MOSFET; Performance evaluation; Tunneling; FinFET; FinFET.; Tunnel FET (TFET); drain current; epitaxial growth; silicon;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2014.2323337
