K. Uomi scite author profile

We propose the application of GaNAs as a novel material fabricated on a Si wafer. It is a direct-transition type semiconductor, and can be lattice-matched to Si. Therefore, it is valid for use in the active region of light-emitting devices fabricated on Si. In this letter, GaNAs with a low N content is grown on a GaAs wafer to explore the gas-source molecular beam epitaxy under which a N radical is used as the N source. As a consequence, GaNAs with a N content up to 1.5% is grown, even though the conductance of the N-radical beam cell is fixed at a very low value. The bowing parameter of the bandgap is experimentally evaluated at 18 eV.

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Mechanism analysis of improved GaInNAs optical properties through thermal annealing

Kitatani

Nakahara

Kondow

et al. 2000

Journal of Crystal Growth

107

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Gas-source MBE of GaInNAs for long-wavelength laser diodes

Kondow

Kitatani

Larson

et al. 1998

Journal of Crystal Growth

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K. Uomi

GaInNAs: A Novel Material for Long-Wavelength-Range Laser Diodes with Excellent High-Temperature Performance

GaInNAs: a novel material for long-wavelength semiconductor lasers

Gas-Source Molecular Beam Epitaxy of GaN_xAs_1-x Using a N Radical as the N Source

Mechanism analysis of improved GaInNAs optical properties through thermal annealing

Gas-source MBE of GaInNAs for long-wavelength laser diodes

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K. Uomi

GaInNAs: A Novel Material for Long-Wavelength-Range Laser Diodes with Excellent High-Temperature Performance

GaInNAs: a novel material for long-wavelength semiconductor lasers

Gas-Source Molecular Beam Epitaxy of GaNxAs1-x Using a N Radical as the N Source

Mechanism analysis of improved GaInNAs optical properties through thermal annealing

Gas-source MBE of GaInNAs for long-wavelength laser diodes

Contact Info

Product

Resources

About

Gas-Source Molecular Beam Epitaxy of GaN_xAs_1-x Using a N Radical as the N Source