High-coherence semiconductor lasers based on integral high-Q resonators in hybrid Si/III-V platforms.

@article{Santis2014HighcoherenceSL,
  title={High-coherence semiconductor lasers based on integral high-Q resonators in hybrid Si/III-V platforms.},
  author={Christos T Santis and Scott T. Steger and Yaakov Vilenchik and Arseny Vasilyev and Amnon Yariv},
  journal={Proceedings of the National Academy of Sciences of the United States of America},
  year={2014},
  volume={111 8},
  pages={
          2879-84
        }
}
The semiconductor laser (SCL) is the principal light source powering the worldwide optical fiber network. The ever-increasing demand for data is causing the network to migrate to phase-coherent modulation formats, which place strict requirements on the temporal coherence of the light source that no longer can be met by current SCLs. This failure can be traced directly to the canonical laser design, in which photons are both generated and stored in the same, optically lossy, III-V material. This… CONTINUE READING
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