Growth of GaAsN/GaAs, GaInAsN/GaAs and GaInAsN/GaAs quantum wells by low-pressure organometallic chemical vapor deposition

GaAsN/GaAs and GaInAsN/GaAs epitaxial layers, with band gap wavelengths as long as 1.25 and 1.3 mu m, respectively have been successfully grown using triethylgallium, trimethylindium, arsine and dimethylhydrazine. The depende nce of nitrogen incorporation on growth temperature and In content has been determined. The band gap energy was lower than that predicted by theory, p ossibly due to short range order. The intensity of the room temperature (RT ) photoluminescence (PL) emission from as-grown GaAsN layers was found to d ecrease with increasing N content. The PL intensity of GaAsN layers with hi gh N content increased upon annealing in nitrogen. The N content of GaAsN l ayers was unaffected by annealing at 650 degrees C for 30 min. Phase separa tion has been observed in Ga0.912In0.088As0.958N0.042 but not in Ga0.927In0 .073As0.97N0.03 NO long-range order was seen in GaAsN or GaInAsN layers. No RTPL emission was observed in as-grown GaInAsN layers. Annealing these GaI nAsN samples at 600-650 degrees C for 10-30 min resulted in PL emission at wavelengths as long as 1.35 mu m and a slight decrease in N content. Ga0.7I n0.3As1-xNx/GaAs quantum wells, with emission wavelengths as long as 1.3 mu m, have been grown. The RTPL intensity of the quantum wells was found to d ecrease greatly for wavelengths greater than 1.2 mu m. Upon annealing the q uantum wells at 600 degrees C the emission wavelength decreased and the int ensity increased substantially for wells with initial emission wavelengths greater than 1.2 mu m (C) 1998 Elsevier Science B.V. All rights reserved.