IEEE Journal of the Electron Devices Society (Jan 2023)
Effect of Amorphous Layer at the Heterogeneous Interface on the Device Performance of β-Ga<sub>2</sub>O<sub>3</sub>/Si Schottky Barrier Diodes
Abstract
Heterogeneous integration of $\beta $ -Ga2O3 with Si substrate is considered as an effective and low-cost technology for the thermal management of $\beta $ -Ga2O3 electrical devices. In this work, an isotype heterojunction of n-Ga2O3/n+-Si (Ga2O3/Si) was fabricated by surface activated bonding in which an amorphous layer was induced by ion beam bombardment. The current density of Ga2O3/Si Schottky barrier diodes (SBDs) are about two orders of magnitude lower than that of Ga2O3 bulk SBDs at 2.8 V due to the influence of amorphous layer. The results are consistent with the simulation results when $\beta $ -Ga2O3 Mole Fraction (MF $=\,\,\text{n}(\beta $ -Ga2O3)/[ $\text{n}(\beta $ -Ga2O3) + n(SiO2)]) and thickness of amorphous layers (Tox) are set at 0.83 and 3 nm, respectively. Furthermore, devices with different MF and ${\mathrm{ T}}_{\mathrm{ ox}}$ were simulated based on the nonlocal tunneling model by Sentaurus TCAD. The decrease of $\beta $ -Ga2O3 Mole Fraction and increase of amorphous layers thickness in the hetero-interface of Ga2O3/Si SBDs lead to a dramatic degeneration of current density and specific on-resistance in Ga2O3/Si SBDs. These results may provide some guidance for improvement of vertical heterogeneous integration $\beta $ -Ga2O3 devices performance.
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