LAUSR

In this paper, we develop an accurate analytical electrostatic potential model for both the n-type and p-type double-gate heterostructure tunnel field-effect transistors (H-TFETs). We solve the Poisson’s equation in four distinct regions inside the device, the depletion regions of the source, channel, and drain, and the drift-diffusion region of the channel, where the mobile charge carriers should be taken into account. It is shown that the model predicts the electrostatic potential profile of the various heterostructure devices with different material systems in all regions of the device operation accurately. The potential model is used for developing a model for the tunneling distance at the given energy level. Due to the physical nature of the models, the influence of the transistor parameters on the electrostatic characteristics of H-TFETs with desired heterojunction materials may be easily pursued. We show that the model results accurately predict the numerical simulation results for different device parameters.