Design and Characterization of Strained Ingaas/Gaassb Type-Ii 'W' Quantum Wells on Inp Substrates for Mid-Ir Emission

InGaAs/GaAsSb type-II 'W' quantum wells (QWs) grown on InP substrates by metalorganic vapour phase epitaxy were investigated for potential emission wavelengths in the mid-infrared spectral region. Design studies using an 8-band k . p Hamiltonian model indicate that emission wavelengths near 3 mu m should be achievable without strain relaxation. Improved electron confinement can be achieved by adding higher-energy band gap alloys such as AlAsSb or GaInP around the type-II 'W' active region. Comparisons of the simulations with experiment indicate that photoluminescence (PL) spectra are consistent with a type-II band alignment. 4-periodtype-II 'W' In(0.8)Ga(0.2)As (similar to 4.0 nm)/GaAs(0.35)Sb(0.65) (similar to 1.5 nm) QWs separated by InP (5 nm) or AlAs(0.767)Sb(0.233) (1.5 nm) barrier layers, demonstrate room-temperature PL emission at similar to 2.1 mu m