Hetero-Material Gate Doping-Less Tunnel FET and Its Misalignment Effects on Analog/RF Parameters

Abstract

In this paper, with the use of a hetero-material gate technique, a tunnel field-effect transistor (TFET) subject to charge plasma technique is proposed, named as hetero-material gate doping-less tunnel FET (HMG-DLTFET) and a brief study has been done on the effects due to misalignment of the bottom gate towards drain (GMAD) and towards source (GMAS). The proposed devices provide better performance as the drive current increased by three times as compared to conventional doping-less TFET (DLTFET). The results are then analyzed and compared with conventional doped hetero-material gate double-gate tunnel FET (HMG-DGTFET). The analog/radiofrequency (RF) performance has been studied for both devices and comparative analysis has been done for different parameters such as drain current (ID), transconductance (gm), output conductance (gd), total gate capacitance (Cgg) and cutoff frequency (fT). Both devices performed similarly in different misalignment configurations. When the bottom gate is perfectly aligned, the best performance is observed for both devices, but the doping-less device gives slightly more freedom for fabrication engineers as the amount of tolerance for HMG-DLTFET is better than that of HMG-DGTFET.