30 Gb/s all-optical clock recovery circuit

@article{Vlachos200030GA,
  title={30 Gb/s all-optical clock recovery circuit},
  author={Kostas Vlachos and George Theophilopoulos and A. Hatziefremidis and Hercules Avramopoulos},
  journal={IEEE Photonics Technology Letters},
  year={2000},
  volume={12},
  pages={705-707}
}
All-optical clock recovery is demonstrated from pseudo-data patterns at 30 Gb/s. The circuit is based on the optical gain modulation of a semiconductor optical amplifier fiber laser. The recovered clock is a 2.7-ps pulse train, with very low modulation pattern even in the presence of more than 200 consecutive 0's in the data signal. 
Highly Cited
This paper has 38 citations. REVIEW CITATIONS

From This Paper

Figures, tables, results, connections, and topics extracted from this paper.
29 Extracted Citations
10 Extracted References
Similar Papers

Citing Papers

Publications influenced by this paper.
Showing 1-10 of 29 extracted citations

Referenced Papers

Publications referenced by this paper.
Showing 1-10 of 10 references

All - optical clock recovery at 40 Gbit / s , ” in

  • B. Sartorius Bornholdt, M. Moehrle
  • Proc . ECOC ’
  • 1999

100 Gb / s bitwise logic

  • K. A. Rauschenbach
  • 1998

All - optical clock recovery using injection modelocked laser diodes

  • P. J. Delfyett
  • Conf . Photonic Processing Technology…
  • 1997

Demonstration of all - optical clock recovery and demultiplexing with a simple - geometry utilizing mode - locked laser diodes

  • H. Kurita Ogura, Y. Hashimoto, T. Shimizu, H. Yokoyama
  • 1997

20 GHz all - optical clock recovery based on fiber laser mode - locking with fiber nonlinear loop mirror as variable intensity phase modulator

  • Bigo, E. Desurvire
  • Electron . Lett .
  • 1995

All - optical timing extraction at 40 - GHz using a mode - locked figure - 8 laser with an SLA

  • E. S. Kintzer L. E. Adams, J. G. Fujimoto
  • 1995

All optical clock recovery at bit rates up to 40 Gbit / s

  • K. Smith A. D. Ellis, D. M. Patrick
  • 1993

Missing pieces in the puzzle of ultra - high speed all - optical logic

  • K. Zoiros K. Vlachos, T. Houbavlis, A. Hatziefremidis, H. Avramopoulos

Similar Papers

Loading similar papers…