Simulation analysis of a novel fully depleted SOI MOSFET: Electrical and thermal performance improvement through trapezoidally doped channel and silicon–nitride buried insulator

Abstract

In this paper, we present a novel nano-scale fully depleted silicon-on-insulator metal-oxide semiconductor field-effect transistor (SOI MOSFET). On-state current increment, leakage current decrement, and self-heating effect improvement are pursued in our proposed structure. The structure makes use of a buried insulator layer which consists of two materials to reduce the self-heating effect. On the other hand, to modify the sub- and super-threshold drain current, vertical trapezoidal doping distribution and additional side gate technique are employed. Our novel transistor is named dual material buried insulator vertical trapezoidal doping SOI MOSFET (DV-SOI MOSFET). We investigate the electrical performance and thermal behavior of the DV-SOI MOSFET using a commercial device simulator. We demonstrate that the proposed structure increases on–off current ratio by orders of magnitude and considerably improves self-heating effect in comparison with the conventional uniform doping fully depleted silicon-on-insulator MOSFET (C-SOI) which uses side gate for better electrical performance.