Impact of Asymmetric Configurations on the Heterogate Germanium Electron–Hole Bilayer Tunnel FET Including Quantum Confinement PROJECT TITLE :Impact of Asymmetric Configurations on the Heterogate Germanium Electron–Hole Bilayer Tunnel FET Including Quantum ConfinementABSTRACT:We investigate the effect of asymmetric configurations on the heterogate germanium electron-hole bilayer tunnel FET (TFET) and assess the advance that they provide in terms of boosting the usually terribly low ON-current levels of TFET devices in the presence of field-induced quantum confinement. We show that when a terribly sturdy inversion for holes is induced at the underside of the channel, the formation of the inversion layer for electrons is shifted to higher gate voltages, which in flip enhances the electrostatic control of the band bending at the top of the channel. As a result, the pinning of the quantized energy subbands is prevented for a wider vary of gate voltages, and this allows vertical band-to-band tunneling distances to be more reduced compared with the conventional symmetric electron-hole bilayer configurations. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Evolution of First-Order Reversal Curves During Self-Assembly of the Co40.2Pt59.8 Nano-Chessboard Structure Optimized Detector Angular Configuration Increases the Sensitivity of X-ray Fluorescence Computed Tomography (XFCT)