论文信息 - Optical and microwave performance of GaAs-AlGaAs and strained layer InGaAs-GaAs-AlGaAs graded index separate confinement heterostructure single quantum well lasers

Optical and microwave performance of GaAs-AlGaAs and strained layer InGaAs-GaAs-AlGaAs graded index separate confinement heterostructure single quantum well lasers

GaAs-AlGaAs and strained layer In/sub 0.3/Ga/sub 0.7/As-GaAs-AlGaAs GRINSCH SQW lasers grown by molecular beam epitaxy are discussed. The strained-layers have threshold currents of 12 mA for 30- mu m*400- mu m devices (1000 A/cm/sup 2/) and threshold current densities of 167 A/cm/sup 2/ for 150- mu m*800- mu m devices. The threshold currents of strained-layer InGaAs lasers are lower than those of GaAs for all dimensions tested with 20- mu m-wide GaAs devices exhibiting threshold currents three times those of In/sub 0.3/Ga/sub 0.7/As devices. Microwave modulation of 10- mu m*500- mu m strained-layer lasers with simple mesa structures yields bandwidths of 6 GHz. For all dimensions tested, strained-layer InGaAs devices have greater bandwidths than GaAs devices. These measurements confirm theoretical predictions of the effects of valence band modification due to biaxially compressive strain.<<ETX>>

[1] Amnon Yariv,et al. Scaling laws and minimum threshold currents for quantum-confined semiconductor lasers , 1988 .

[2] S. Chinn. Modal analysis of GRIN-SCH and triangular-well waveguides. , 1984, Applied optics.

[3] Effect of strain on the band structure of GaAs and In0.2Ga0.8As , 1988 .

[4] Lester F. Eastman,et al. Graded‐index separate‐confinement InGaAs/GaAs strained‐layer quantum well laser grown by metalorganic chemical vapor deposition , 1986 .

[5] L. A. Coldren,et al. Extremely wide modulation bandwidth in a low threshold current strained quantum well laser , 1988 .

[6] R. M. Kolbas,et al. Strained-layer InGaAs-GaAs-AlGaAs photopumped and current injection lasers , 1988 .

[7] P. J. Caldwell,et al. Properties of InxGa1−xAs‐GaAs strained‐layer quantum‐well‐heterostructure injection lasers , 1985 .

[8] Lester F. Eastman,et al. Strained‐layer InGaAs‐GaAs‐AlGaAs graded‐index separate confinement heterostructure single quantum well lasers grown by molecular beam epitaxy , 1989 .

[9] S. Fischer,et al. Ridge waveguide injection laser with a GaInAs strained‐layer quantum well (λ=1 μm) , 1987 .

[10] Eli Yablonovitch,et al. Reduction of lasing threshold current density by the lowering of valence band effective mass , 1986 .

[11] A. R. Adams,et al. Band-structure engineering for low-threshold high-efficiency semiconductor lasers , 1986 .