학술논문
Optimization of Vertical GaN Drift Region Layers for Avalanche and Punch-Through Pn-Diodes
Document Type
Periodical
Author
Source
IEEE Electron Device Letters IEEE Electron Device Lett. Electron Device Letters, IEEE. 44(3):388-391 Mar, 2023
Subject
Language
ISSN
0741-3106
1558-0563
1558-0563
Abstract
We optimized gallium nitride drift layers for high voltage and low resistance vertical electronic devices by tuning the doping concentration for a given thickness of $5~\mu \text{m}$ . The optimization procedure is based on an empirical mobility model in order to maximize the corresponding device’s power figure-of-merit with respect to the drift layers parameters. We demonstrate quasi-vertical gallium-nitride based avalanche and punch-through pn-diodes grown on sapphire substrates and we compare the results to the theoretical breakdown voltage values as a function of the drift region doping concentration and thickness. We report on a pn-diode with 545 V avalanche breakdown voltage and a specific resistance of 0.34 $\text{m}\Omega $ cm2 resulting in a power figure-of-merit of 874 MW / cm2 and a punch-through pn-diode with 920 V breakdown voltage, specific resistance of 0.57 $\text{m}\Omega $ cm2 resulting in a power figure-of-merit of 1.48 GW / cm2.