Theory of the Junctionless Nanowire FET

In this paper, we model the electrical properties of the junctionless (JL) nanowire field-effect transistor (FET), which has been recently proposed as a possible alternative to the junction-based FET. The analytical model worked out here assumes a cylindrical geometry and is meant to provide a physical understanding of the device behavior. Most notably, it aims to clarify the motivation for its nearly ideal subthreshold slope and its excellent on-state current while being a depletion device with lower electron mobility due to impurity scattering. At the same time, the model clarifies a constraint binding the allowable value of the doping density per unit length and its impact on the overall device performance. The device variability and the parasitic source/drain resistances are identified as the most important limitations of the JL nanowire field-effect transistor.

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