1.3 m InAs/GaAs quantum-dot lasers grown on planar on-axis Si (001) substrates with high slope-efficiency and low differential resistance

We report electrically pumped continuous-wave (CW) InAs/GaAs quantum dot lasers monolithically grown on planar on-axis Si (001) substrates. Combining an asymmetric waveguide epitaxy structure with aluminium-free upper cladding layers and a symmetrical cathode chip structure, 1.3 mu m band lasers with low differential resistance and high slope-efficiency have been achieved. Moreover, the optimized symmetrical cathode structure of the laser chips is used to improve the slope-efficiency by reducing the differential resistance and waste heat. The Fabry-Perot broad-stripe edge-emitting lasers with 2000 mu m cavity length and 15 mu m stripe width achieve a single-facet output power of 73 mW, a single-facet slope efficiency of 0.165 W A(-1), and a differential resistance of 1.31 Omega at similar to 1.31 mu m wavelength under CW conditions at room temperature (25(degrees)C). Importantly, these results provide an effective strategy to achieve 1.3 mu m wavelength band single-mode distributed feedback lasers directly on planar on-axis Si (001) substrates with high efficiency.