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Solid-source molecular beam epitaxy growth of GaInP and GaInP-containing quantum wells
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The growth and characterization of high quality epitaxial layers of GaInP and GaInP-containing quantum wells grown by solid-source molecular beam epitaxy (MBE) is reported. Bulk GaInP shows photoluminescence linewidths as small as 6.7 meV and double-crystal x-ray diffraction linewidths as narrow as 12.5 arcsec. Evidence for the presence of long-range ordering in MBE-grown GaInP is discussed. GaAs-GaInP quantum wells show good structural and optical quality. A comparison of the measured transition energies with the predictions of a simple, finite depth square well model suggests a very small value for the conduction band offset in this system. GaInP-(Al0.37Ga0.64)0.51In0.49P quantum wells show good optical properties with emission at energies as high as 2.15 eV (≡6000 Å at 300 K) at 4.2 K for a 12 Å well.
Title: Solid-source molecular beam epitaxy growth of GaInP and GaInP-containing quantum wells
Description:
The growth and characterization of high quality epitaxial layers of GaInP and GaInP-containing quantum wells grown by solid-source molecular beam epitaxy (MBE) is reported.
Bulk GaInP shows photoluminescence linewidths as small as 6.
7 meV and double-crystal x-ray diffraction linewidths as narrow as 12.
5 arcsec.
Evidence for the presence of long-range ordering in MBE-grown GaInP is discussed.
GaAs-GaInP quantum wells show good structural and optical quality.
A comparison of the measured transition energies with the predictions of a simple, finite depth square well model suggests a very small value for the conduction band offset in this system.
GaInP-(Al0.
37Ga0.
64)0.
51In0.
49P quantum wells show good optical properties with emission at energies as high as 2.
15 eV (≡6000 Å at 300 K) at 4.
2 K for a 12 Å well.
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