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LASER DIODES HAVE MANY ADVANTAGES OVER OTHER FORMS OF LASERS: EXTREMELY COMPACT (<1CM IN LENGTH) INEXPENSIVE AND SIMPLE DESIGNS THAT CAN ACHIEVE HIGH POWER HIGH GAIN HIGH MODULATION SPEED HIGH MONOCHROMATICITY AND EXCELLENT RELIABILITY AND LONGEVITY. ALUMINUM GALLIUM NITRIDE (ALGAN) IS MATERIAL OF CHOICE TO EMIT LASER IN THE ULTRAVIOLET RANGE DUE TO ITS WIDE BANDGAP. HOWEVER CONVENTIONAL ALGAN DEVICES ARE FABRICATED ON III-NITRIDES THERMODYNAMICALLY STABLE HEXAGONAL PHASE WHICH HAS PROPERTIES (POLARIZATION FIELDS POOR P-DOPING EFFICIENCY LOW HOLE MOBILITY LACK OF CLEAVAGE PLANES) THAT ARE DETRIMENTAL TO THE CHARACTERISTICS OF THE LASER. GAN CAN ALSO BE ENGINEERED IN ITS METASTABLE CUBIC PHASE THAT HAS SUPERIOR PROPERTIES (POLARIZATION-FREE HIGHER HOLE MOBILITY HIGHER GAIN BETTER P-DOPING EFFICIENCY CLEAVAGE PLANES) FOR STIMULATED EMISSION. MY APPROACH OF GROWING CUBIC PHASE GAN VIA METALORGANIC CHEMICAL VAPOR DEPOSITION (MOCVD) ON CAREFULLY PATTERNED SI(100) MITIGATES THE COMMON ISSUES (PHASE MIXING DEFECTIVE) FOUND IN EPITAXY ON PLANAR SUBSTRATES SUCH AS GAAS AND 3C-SIC WHILE ADDING THE BENEFITS OF INEXPENSIVE SUBSTRATE SCALABILITY AND THE ABILITY TO BE INTEGRATED WITH SI DEVICES. THIS PROPOSAL OPENS UP A PATH TO POLARIZATION-FREE III-NITRIDE LASER DIODE DEVICES.

$229,000FY2020National Aeronautics and Space AdministrationNASA

University Of Illinois

Investigators

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