# Deep sub micron normally off AlGaN/GaN MOSFET on silicon with VTH > 5V   and On Current > 0.5 A/mm

**Authors:** Sandeep Kumar, Sandeep Vura, Surani B. Dolmanan, Sudhiranjan Tripathy,, R. Muralidharan, Digbijoy N. Nath

arXiv: 1908.05853 · 2019-08-19

## TL;DR

This paper demonstrates a deep sub-micron normally-off AlGaN/GaN HEMT on silicon with high on-current and threshold voltage, achieved through precise gate recess engineering and dielectric annealing, with insights from device simulations.

## Contribution

It introduces a novel fabrication process for high-performance normally-off AlGaN/GaN HEMTs with VTH > 5V and on-current > 0.5 A/mm on silicon substrate.

## Key findings

- Achieved VTH > 5V and on-current > 0.5 A/mm in a sub-micron device.
- Optimized device performance through gate recess and dielectric annealing.
- Identified breakdown limitations via 2D-TCAD simulations.

## Abstract

We report on the demonstration of a deep sub-micron normally-off AlGaN/GaN HEMT with high on-current and high threshold voltage (VTH). The high-performance device was realized by utilizing a gate recess with length and depth of 200 nm and 124 nm respectively. The recess etched region had a roughness of 0.7 nm. Various recess etch depths and dielectric annealing conditions were used to tune the VTH. The optimized device exhibited on-current and VTH of 500 mA/mm and 5 V respectively. The measured breakdown characteristics of the devices and their limitations were investigated using 2D-TCAD device simulation. The penetration of the residual electric field in most of the recess region could be the reason for the premature breakdown of deeply scaled recess-gate e-mode HEMTs.

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Source: https://tomesphere.com/paper/1908.05853