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Approach to obtain high quality GaN on Si and SiC-on-silicon-on-insulator compliant substrate by molecular-beam epitaxy
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1995
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Wide-bandgap SemiconductorEngineeringDominant Bound-exciton PeakMolecular-beam EpitaxyNanoelectronicsMaterials EngineeringMaterials ScienceElectrical EngineeringSemiconductor TechnologyHigh Quality GanAluminum Gallium NitrideMicroelectronicsSuperlattice Buffer LayerCategoryiii-v SemiconductorSoi StructureApplied PhysicsSic-on-silicon-on-insulator Compliant SubstrateGan Power DeviceOptoelectronics
Crystalline SiC thin layers have been grown on 125 mm silicon-on-insulator (SOI) substrates as a promising and economical substrate for the growth of GaN epilayers. Through the use of an AlN/GaN strained superlattice buffer layer, high quality GaN layers as thin as 2000 Å on Si(111) substrates have been achieved. X-ray diffraction curves with a full width at half-maximum (FWHM) as narrow as 25 arcmin were obtained. The associated low-temperature photoluminescence (PL) spectrum showed a dominant bound-exciton peak with a FWHM of 8 meV. We have further combined these two techniques to synthesize the first GaN on SiC on a SOI structure.