摘要
We propose a dynamic threshold voltage j unctionless tunnel FET (DT-JLTFET) in wnlcn me mresnolu voltage can be dynamically adjusted, resulting in higher ON-current. Through 2D numerical simulations, it is presented that the threshold voltage in the DT-JLTFET can be adjusted by applying a voltage to the adjust gate. The impact of the threshold voltage shift on the overall performance of the device is also studied. A comparison is made between the dynamic threshold voltage characteristics of a silicon JLTFET and a Sio.7Geo.3 source JLTFET.
We propose a dynamic threshold voltage j unctionless tunnel FET (DT-JLTFET) in wnlcn me mresnolu voltage can be dynamically adjusted, resulting in higher ON-current. Through 2D numerical simulations, it is presented that the threshold voltage in the DT-JLTFET can be adjusted by applying a voltage to the adjust gate. The impact of the threshold voltage shift on the overall performance of the device is also studied. A comparison is made between the dynamic threshold voltage characteristics of a silicon JLTFET and a Sio.7Geo.3 source JLTFET.
