量子隧道
电容
切断
摇摆
寄生电容
物理
电气工程
晶体管
阈下摆动
场效应晶体管
光电子学
材料科学
拓扑(电路)
电压
工程类
电极
量子力学
声学
作者
Ashita,Sajad A. Loan,Mohammad Rafat
标识
DOI:10.1109/ted.2017.2783764
摘要
In this paper, we propose and simulate a new structure of a line tunnel FET employing gate over source-channel overlap pockets (GO-SCOPs). The SCOPs create vertical tunneling path within the source and the channel extension that lead to a faster thinning of the lateral tunneling barrier between the source and channel regions. As a result, an inverted C-shaped tunnel junction is formed providing both lateral tunneling and vertical tunneling. A calibrated 2-D simulation study shows that an ON-current improvement by one order is achieved in comparison with the gate over source only (GoSo) tunnel field-effect transistors with pockets. Further, the OFF-state leakage and average subthreshold swing are reduced by 44% and 21%, respectively, with an improved parasitic capacitance. This has improved the cutoff frequency from 8.3 MHz in GoSo with pockets structure to 1.19 GHz in the proposed GO-SCOP structure. Furthermore, by employing Ge SCOPs, the ON current is boosted by 4 orders of magnitude, maintaining leakage at ~0.25 fA/μm, giving ION/IOFF > 10 9 , and a much improved average subthreshold swing of ~48 mV/dec at V GS = 2 V, V DS = 0.5 V.
科研通智能强力驱动
Strongly Powered by AbleSci AI