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Modal Noise. The Influence of Modal Noise on a Digital 1.3 μm Optical Transmission System

  • W. Koester and O. Strobel
Published/Copyright: October 11, 2016
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Journal of Optical Communications
From the journal Journal of Optical Communications Volume 5 Issue 1

Summary

The performance increase of optical transmission systems creates new problems like optical feedback and modal noise. It is very important to overcome these problems especially in systems composed by a lot of single optical elements. In this paper we describe a new method to determine the degree of mode selectivity produced by these devices. A simple model for modal noise description together with experimental results are presented.

Received: 1983-7-29
Published Online: 2016-10-11
Published in Print: 1984-3-1

© 2016 by Walter de Gruyter Berlin/Boston

Articles in the same Issue

  1. Titelei
  2. Contents
  3. Integrated Optics
  4. Design Tradeoffs for High-Speed Directional Coupler Modulators with Δβ-Reversal in LiNbO3
  5. High-Speed Δβ-Reversal Directional Coupler Modulator with Low Insertion Loss for 1.3 μm in LiNbO3
  6. Electrically Induced Ti:LiNbO3 Strip-Waveguides: Effect of Electrooptic Modulation
  7. Light Propagation in Proton-Exchanged LiNbO3 Waveguides
  8. Measurements. Pulse Dispersion Measurements on Concatenated Cabled Optical Fibers at 1.3 μm
  9. Modal Noise. The Influence of Modal Noise on a Digital 1.3 μm Optical Transmission System
  10. Lasers. Characterization of Laser Diodes by Measuring the Speckle Contrast at the End of a Multimode Fiber
  11. Miscellaneous
  12. Meetings Calendar
  13. Call for Papers
  14. News
  15. Imprint
  16. Hints for Authors
https://doi.org/10.1515/joc-1984-0107

Articles in the same Issue

  1. Titelei
  2. Contents
  3. Integrated Optics
  4. Design Tradeoffs for High-Speed Directional Coupler Modulators with Δβ-Reversal in LiNbO3
  5. High-Speed Δβ-Reversal Directional Coupler Modulator with Low Insertion Loss for 1.3 μm in LiNbO3
  6. Electrically Induced Ti:LiNbO3 Strip-Waveguides: Effect of Electrooptic Modulation
  7. Light Propagation in Proton-Exchanged LiNbO3 Waveguides
  8. Measurements. Pulse Dispersion Measurements on Concatenated Cabled Optical Fibers at 1.3 μm
  9. Modal Noise. The Influence of Modal Noise on a Digital 1.3 μm Optical Transmission System
  10. Lasers. Characterization of Laser Diodes by Measuring the Speckle Contrast at the End of a Multimode Fiber
  11. Miscellaneous
  12. Meetings Calendar
  13. Call for Papers
  14. News
  15. Imprint
  16. Hints for Authors
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