PHOTOLUMINESCENCE AND X-RAY-DIFFRACTION STUDIES OF MBE-GROWN COMPRESSIVELY STRAINED INGAAS AND INGAALAS QUANTUM-WELLS FOR 1.55 MU-M LASER-DIODE APPLICATIONS

Compressively strained InGaAs and InGaAlAs multiple quantum wells were grown on InP by molecular beam epitaxy and their material qualities w ere investigated by double-crystal X-ray diffraction (DCXRD) and photo luminescence (PL). From the satellite peaks in a DCXRD scan, precise l ayer structures were determined. By comparing PL spectra of strained q uantum wells having different well thicknesses, 75 angstrom thick quan tum wells were found to be more suitable for laser diode applications than thinner wells. To achieve the required lasing wavelength of 1.55 mum with 75 angstrom wide strained quantum wells, quaternary InGaAlAs quantum wells were studied. It was also found that quaternary InGaAlAs strained quantum wells are less prone to strain relation than ternary InGaAs.