Abstract

Multiple cations intermixing in an In/sub 0.53/Ga/sub 0.47/As-In/sub 0.52/Al/sub 0.48/As quantum-well (QW) structure with 60-/spl Aring/ well width is being studied based on the expanded form of Fick's second law. Interdiffusion of the indium sublattice can result in a maximum compressive strain of 0.64% when annealing time reaches 3 h at 812/spl deg/C. For a small interdiffusion, i.e., 1-1.5 h, the subband separation between the lowest heavy and light hole states is at its greatest. This has a major contribution to the modified band structure and averaged density of states which can result in an enhanced optical gain up to 40%. This initial stage of intermixing provides the best lasing performance. For large interdiffusion, i.e., up to 6 h, a large blue shift of the peak gain from 0.842 eV (/spl lambda/=1.47 /spl mu/m) to 1.016 eV (/spl lambda/=1.22 /spl mu/m) is obtained, thus giving a high tunability of the lasing wavelength.

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