Killer defect responsible for reverse leakage current in halide vapor phase epitaxial (011) <b> <i>β</i> </b>-Ga2O3 Schottky barrier diodes investigated via ultrahigh sensitive emission microscopy and synchrotron x-ray topography
Sayleap Sdoeung, Yuto Otsubo, Kohei Sasaki, Akito Kuramata, Makoto Kasu
Abstract
In this study, we identify the killer defect responsible for the reverse leakage in the halide vapor phase epitaxial (011) β-Ga2O3 Schottky barrier diode via ultrahigh sensitive emission microscopy, synchrotron x-ray topography, and scanning transmission electron microscopy. A polycrystalline defect was found to be causing a leakage current of −5.1 μA at a reverse bias of −50 V. They were distributed across the wafer with a density ranging from 10 to 103 cm−2. Cross-sectional scanning electron microscopy of the polycrystalline defect revealed domains with various crystal orientations accompanied by a (100)-oriented micro-crack and dislocations along the [010] direction.
Topics & Concepts
Materials scienceEpitaxyTransmission electron microscopySchottky diodeCrystalliteSynchrotronOptoelectronicsSchottky barrierScanning electron microscopeDiodeReverse leakage currentMicroscopyCrystallographyOpticsChemistryNanotechnologyLayer (electronics)PhysicsComposite materialGa2O3 and related materialsZnO doping and propertiesElectronic and Structural Properties of Oxides