Enhancement-mode Ga2O3 wrap-gate fin field-effect transistors on native (100) β-Ga2O3 substrate with high breakdown voltage
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Date
Editor
Advisor
Volume
109
Issue
21
Journal
Applied Physics Letters
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Publisher
Melville, NY : American Inst. of Physics
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Abstract
Sn-doped gallium oxide (Ga2O3) wrap-gate fin-array field-effect transistors (finFETs) were formed by top-down BCl3 plasma etching on a native semi-insulating Mg-doped (100) β-Ga2O3 substrate. The fin channels have a triangular cross-section and are approximately 300 nm wide and 200 nm tall. FinFETs, with 20 nm Al2O3 gate dielectric and ∼2 μm wrap-gate, demonstrate normally-off operation with a threshold voltage between 0 and +1 V during high-voltage operation. The ION/IOFF ratio is greater than 105 and is mainly limited by high on-resistance that can be significantly improved. At VG = 0, a finFET with 21 μm gate-drain spacing achieved a three-terminal breakdown voltage exceeding 600 V without a field-plate.
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Keywords
Alumina, Aluminum oxide, Boron compounds, Chlorine compounds, Electric breakdown, FinFET, Fins (heat exchange), Gate dielectrics, Heterojunction bipolar transistors, High electron mobility transistors, Magnesium compounds, Plasma etching, Semiconductor junctions, Threshold voltage, Tin compounds, Enhancement modes, Fin field effect transistors, Gallium oxides, High breakdown voltage, High-voltage operation, On-resistance, Semi-insulating, Triangular cross-sections, Gallium compounds
Keywords GND
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CC BY 4.0 Unported