Strain-compensated InGaAsSb multiple quantum-wells with digital AlGaAsSb barriers for midinfrared lasers |
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Authors: | Li W Shao H Moscicka D Unuvar T Wang WI |
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Affiliation: | Dept. of Electr. Eng., Columbia Univ., New York, NY, USA; |
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Abstract: | Midinfrared InGaAsSb-AlGaAsSb strain-compensated multiple quantum-wells (SCMQW) have been grown by solid-source molecular beam epitaxy. Short-period (AlGaAsSb)/sub y/--(AlGaSb)/sub 1-y/ digital barriers were employed to avoid growth interruptions at the barrier-well interfaces, thereby significantly improving the structural and optical properties of the InGaAsSb SCMQW as evidenced by X-ray diffraction and photoluminescence measurements. Based on these high-quality SCMQW, a room-temperature threshold current density as low as 163 A/cm/sup 2/ was achieved for 1000-/spl mu/m-long broad-area lasers emitting at 2.38 /spl mu/m in pulsed mode. The 880-/spl mu/m-long lasers retained a high characteristic temperature (T/sub 0/) of 165 K up to 80/spl deg/C and could operate at temperatures above 100/spl deg/C. A typical wavelength blueshift of 38 meV was observed in the SCMQW laser samples compared to the SCMQW-only samples. |
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