Micro-Transfer-Printed III-V-on-Silicon Distributed Feedback Lasers

B. Haq; S. Kumari; Jing Zhang; A. Gocalinska; E. Pelucchi; B. Corbett; G. Roelkens

DOI:10.1364/ofc.2020.t3c.7
Corpus ID: 216157178

Micro-Transfer-Printed III-V-on-Silicon Distributed Feedback Lasers

@article{Haq2020MicroTransferPrintedID,
  title={Micro-Transfer-Printed III-V-on-Silicon Distributed Feedback Lasers},
  author={Bahawal Haq and Sulakshna Kumari and Jing Zhang and Agnieszka M. Gocalinska and Emanuele Pelucchi and Brian Corbett and Gunther Roelkens},
  journal={2020 Optical Fiber Communications Conference and Exhibition (OFC)},
  year={2020},
  pages={1-3}
}

B. Haq, S. Kumari, G. Roelkens
Published 1 March 2020
Physics
2020 Optical Fiber Communications Conference and Exhibition (OFC)

We report on III-V-on-silicon DFB lasers realized by micro-transfer-printing pre-fabricated III-V semiconductor optical amplifiers on a silicon waveguide circuit comprising a first-order quarter wave shifted grating. Single mode operation at 1530 nm is demonstrated.

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References

SHOWING 1-2 OF 2 REFERENCES

IlI-V/Si PICs Based on Micro-Transfer-Printing

G. Roelkens, Jing Zhang, R. Baets
Physics
2019 Optical Fiber Communications Conference and Exhibition (OFC)
2019

An alignment-tolerant interface for evanescently-coupled devices is proposed enabling III-V/Si heterogeneously integrated PICs using micro-transfer-printing.

Alignment-tolerant taper design for transfer printed III-V-on-Si devices

B. Haq, G. Roelkens
Physics
2019

In this paper, we present the design of a 1.0 m misalignment-tolerant taper for the evanescent coupling of light in a III-V-on-silicon opto-electronic device realized on an SOI waveguide platform…

Micro-Transfer-Printed III-V-on-Silicon Distributed Feedback Lasers

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