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Theory of optimal mixing in directly modulated laser diodes

Khorasani, S ; Sharif University of Technology | 2009

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  1. Type of Document: Article
  2. Publisher: 2009
  3. Abstract:
  4. Using a simple nonlinear model based on rate equations, and by employing a harmonic balance method, we develop a theory of optimal mixing in directly modulated semiconductor laser diodes. We perform a consistent numerical solution to the mixing in laser diodes to the arbitrary accuracy and intermodulation index (m, n). Through numerical computations we demonstrate that there is an optimal bias in mixing, corresponding to a relaxation frequency, fr, coinciding with the subcarrier frequency, f1, at which the mixing power is maximized nearly simultaneously for all intermodulation products, fmn. In terms of increasing the signal's current amplitude, it will be shown that it would result in a monotonic increase in the optical power of all intermodulation products, as is normally expected. More generally and for the first time to the best of our knowledge, the condition for optimal mixing power is found as fmn = kfr = mf1 + nf2. Applications are in data transmission beyond the resonant frequency of the laser diode as needed in future communication standards. © Sharif University of Technology, December 2009
  5. Keywords:
  6. Laser diode ; Microwave photonics ; Mixing ; Arbitrary accuracy ; Communication standards ; Current amplitude ; Data transmission ; Directly modulated laser diodes ; Directly modulated semiconductor lasers ; Harmonic Balance method ; Inter-modulation products ; Laser diodes ; Microwave Photonics ; Mixing power ; Non-linear model ; Numerical computations ; Numerical solution ; Optical power ; Optimal mixing ; Rate equations ; Relaxation frequency ; Resonant frequencies ; Subcarrier frequencies ; Intermodulation ; Laser theory ; Lasers ; Microwaves ; Natural frequencies ; Nonlinear equations ; Numerical analysis ; Optimization ; Semiconductor lasers ; Semiconductor diodes ; Amplitude ; Electrode ; Laser ; Nonlinearity ; Numerical model
  7. Source: Scientia Iranica ; Volume 16, Issue 2 D , 2009 , Pages 157-162 ; 10263098 (ISSN)
  8. URL: http://scientiairanica.sharif.edu/article_3278.html