Analysis of the gain distribution across the active region of InGaAs-InAlGaAs multiple quantum well lasers

Abstract: Analysis of the gain distribution across the active region of InGaAs-InAlGaAs multiple quantum well lasers M. Jain, J. Roberts and C.N. Ironside Abstract: Spectral gain measurements for two InGaAs-InAlGaAs multiple width quantum well structures, with inverse-configured active regions, have been presented. One structure consisted of wide quantum wells near the p-side and narrow quantum wells near the n-side of the active region. The other structure consisted of narrow quantum wells near the p-side of the active… Show more

“…These simulations, however, are very sensitive to poorly known input parameters, particularly hole mobility, and that in any case driftdiffusion models cannot properly describe transport across InGaN wells or WG layers, or across the AlGaN EBL. 21) But we also note that similar effects have been reported in theoretical and experimental work with GaAsSb, 22) InGaAs, 23) and InGaAsP 24) LDs, and is an important area for future work in the III-nitrides.…”

Semipolar InGaN blue laser diodes with a low optical loss and a high material gain obtained by suppression of carrier accumulation in the p-waveguide region

“…These simulations, however, are very sensitive to poorly known input parameters, particularly hole mobility, and that in any case driftdiffusion models cannot properly describe transport across InGaN wells or WG layers, or across the AlGaN EBL. 21) But we also note that similar effects have been reported in theoretical and experimental work with GaAsSb, 22) InGaAs, 23) and InGaAsP 24) LDs, and is an important area for future work in the III-nitrides.…”

Semipolar InGaN blue laser diodes with a low optical loss and a high material gain obtained by suppression of carrier accumulation in the p-waveguide region