On the Application of Strain-Compensating GaAsP Layers for the Growth of InGaAs/GaAs Quantum-Well Laser Heterostructures Emitting at Wavelengths above 1100 nm on Artificial Ge/Si Substrates

On the Application of Strain-Compensating GaAsP Layers for the Growth of InGaAs/GaAs Quantum-Well Laser Heterostructures Emitting at Wavelengths above 1100 nm on Artificial Ge/Si Substrates

Stressed InGaAs/GaAs quantum-well laser structures are grown by gas-phase epitaxy from organometallic compounds on GaAs substrates and artificial Ge/Si substrates based on Si(001) with an epitaxial metamorphic Ge layer. To suppress the relaxation of elastic stresses during the growth of InGaAs quant...

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Veröffentlicht in:Semiconductors (Woodbury, N.Y.) N.Y.), 2018-12, Vol.52 (12), p.1547-1550
Hauptverfasser: Baidus, N. V., Aleshkin, V. Ya, Dubinov, A. A., Krasilnik, Z. F., Kudryavtsev, K. E., Nekorkin, S. M., Novikov, A. V., Rykov, A. V., Reunov, D. G., Shaleev, M. V., Yunin, P. A., Yurasov, D. V.
Format: Artikel
Sprache:eng
Schlagworte:
2018
CRYSTAL GROWTH
Epitaxial growth
Gallium arsenide
Gallium arsenide phosphide
GALLIUM ARSENIDES
GERMANIUM
Heterostructures
INDIUM ARSENIDES
Indium gallium arsenides
LASERS
Magnetic Materials
Magnetism
March 12–15
MATERIALS SCIENCE
Nizhny Novgorod
ORGANOMETALLIC COMPOUNDS
Physics
Physics and Astronomy
QUANTUM WELLS
Silicon substrates
Strain
Stress relaxation
SUBSTRATES
WAVELENGTHS
Xxii International Symposium “Nanophysics and Nanoelectronics”
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Zusammenfassung:Stressed InGaAs/GaAs quantum-well laser structures are grown by gas-phase epitaxy from organometallic compounds on GaAs substrates and artificial Ge/Si substrates based on Si(001) with an epitaxial metamorphic Ge layer. To suppress the relaxation of elastic stresses during the growth of InGaAs quantum wells with a high fraction of In, strain-compensating GaAsP layers are applied. The structural and radiative properties of the samples grown on substrates of various types are compared. Stimulated radiation at wavelengths up to 1.24 μm at 300 K is obtained for structures grown on GaAs substrates and at wavelengths up to 1.1 μm at 77 K, for structures grown on Ge/Si substrates.
ISSN:1063-7826
1090-6479
DOI:10.1134/S1063782618120060