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Impact of threading dislocation density on the lifetime of InAs quantum dot lasers on Si

2018; American Institute of Physics; Volume: 112; Issue: 15 Linguagem: Inglês

10.1063/1.5026147

1520-8842

Daehwan Jung, Robert W. Herrick, Justin Norman, Katherine Turnlund, Catherine Jan, Kaiyin Feng, A. C. Gossard, John E. Bowers,

Photonic and Optical Devices

We investigate the impact of threading dislocation density on the reliability of 1.3 μm InAs quantum dot lasers epitaxially grown on Si. A reduction in the threading dislocation density from 2.8 × 108 cm−2 to 7.3 × 106 cm−2 has improved the laser lifetime by about five orders of magnitude when aged continuous-wave near room temperature (35 °C). We have achieved extrapolated lifetimes (time to double initial threshold) more than 10 × 106 h. An accelerated laser aging test at an elevated temperature (60 °C) reveals that p-modulation doped quantum dot lasers on Si retain superior reliability over unintentionally doped ones. These results suggest that epitaxially grown quantum dot lasers could be a viable approach to realize a reliable, scalable, and efficient light source on Si.