Semiconductor Diode with Feedback

Simulated a semiconductor laser diode subject to feedback
1.2K Downloads
Updated 28 Apr 2016

View License

This code simulates a semiconductor laser diode subject to optical self-feedback. The diode's optical intensity and the free electron carrier population are calculated over time.
Parameters are hard-coded into the "SemiconductorSimulationDDE_MM.m" file, and include:
- diode coefficients taken from a simulation of near infrared diodes (Ryan et al 1994)
- simulation parameters such as number of modes to simulate, time of simulation, laser bias current, optical feedback strength, optical feedback delay, etc
- current modulation parameters including modulation depth and modulation frequency
References:
Ryan, Agrawal, Gray, and Gage. "Optical-feedback-induced chaos and its control in multimode semiconductor lasers". IEEE J. Quantum Electronics, vol 30 no. 3, March 1994
Buldu, Garcia-Ojalvo, Torrent. "Multimode synchronization and communication using unidirectionally coupled semiconductor lasers". IEEE J. Quantum Electronics, vol 40 no 6. June 2004
Rumbaugh, Dunn, Bollt, Cochenour, Jemison. "Control of chaotic intensity modulation in a 462 nm InGaN diode laser for underwater lidar applications". Experimental Chaos and Complexity, May 2016.
See Jacek Kierzenka's tutorial on the dde23 engine used for this submission at
http://www.mathworks.com/matlabcentral/fileexchange/3899-tutorial-on-solving-ddes-with-dde23

Cite As

Luke Rumbaugh (2024). Semiconductor Diode with Feedback (https://www.mathworks.com/matlabcentral/fileexchange/56573-semiconductor-diode-with-feedback), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2015b
Compatible with any release
Platform Compatibility
Windows macOS Linux
Acknowledgements

Inspired by: Tutorial on solving DDEs with DDE23

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!
Version Published Release Notes
1.2.0.0

Includes missing helper functions

1.1.0.0

Includes thorough description of simulation procedure

1.0.0.0