Experimental measurements on broad-area 1300 nm lasers show that a highly strained In0.74Ga0.26As/In0.53Al0.25Ga0.22As superlattice active region yields ~6 cm^{-1} internal loss, ~500 A/cm^{2} transparency current density, 46 cm^{-1} modal gain, 53% internal efficiency, and characteristic temps T0=
Impact of device topology on the performance of high-speed 1550 nm wafer -fused VCSELs,
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Numerical modeling and experimental demonstration of lasing in quantum-dot micropillar lasers up to 220 K with a hybrid top mirror achieving Q-factor ~65000 and threshold ~2.2 mW.
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Gain and Threshold Improvements of 1300 nm Lasers based on InGaAs/InAlGaAs Superlattice Active Regions
Experimental measurements on broad-area 1300 nm lasers show that a highly strained In0.74Ga0.26As/In0.53Al0.25Ga0.22As superlattice active region yields ~6 cm^{-1} internal loss, ~500 A/cm^{2} transparency current density, 46 cm^{-1} modal gain, 53% internal efficiency, and characteristic temps T0=
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Lasing of Quantum-Dot Micropillar Lasers under Elevated Temperatures
Numerical modeling and experimental demonstration of lasing in quantum-dot micropillar lasers up to 220 K with a hybrid top mirror achieving Q-factor ~65000 and threshold ~2.2 mW.