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4 March 2016 Modeling of ultrashort pulse generation in mode-locked VECSELs
I. Kilen, S. W. Koch, J. Hader, J. V. Moloney
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Proceedings Volume 9742, Physics and Simulation of Optoelectronic Devices XXIV; 97420H (2016) https://doi.org/10.1117/12.2217147
Event: SPIE OPTO, 2016, San Francisco, California, United States
Abstract
We present a study of various models for the mode-locked pulse dynamics in a vertical external-cavity surface emitting laser with a saturable absorber. The semiconductor Bloch equations are used to model microscopically the light-matter interaction and the carrier dynamics. Maxwell’s equations describe the pulse propagation. Scattering contributions due to higher order correlation effects are approximated using effective rates that are found from a comparison to solving the microscopic scattering equations on the second Born-Markov level. It is shown that the simulations result in the same mode-locked final state whether the system is initialized with a test pulse close to the final mode-locked pulse or the full field build-up from statistical noise is considered. The influence of the cavity design is studied. The longest pulses are found for a standard V-cavity while a linear cavity and a V-cavity with an high reflectivity mirror in the middle are shown to produce similar, much shorter pulses.
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I. Kilen, S. W. Koch, J. Hader, and J. V. Moloney "Modeling of ultrashort pulse generation in mode-locked VECSELs", Proc. SPIE 9742, Physics and Simulation of Optoelectronic Devices XXIV, 97420H (4 March 2016); https://doi.org/10.1117/12.2217147
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KEYWORDS
Mode locking
Quantum wells
Mirrors
Polarization
Picosecond phenomena
Scattering
Ultrafast phenomena
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