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Timing stabilization of a photonic integrated circuit extended cavity passively mode-locked semiconductor ring laser with four gain sections and two saturable absorbers in a symmetric ring geometry by optical self-injection is presented. The laser has been fabricated using an InP generic integration technology platform. Repetition rate tuning up to 5.5MHz and a timing jitter reduction by optical self-injection from 99 fs (solitary laser operation) to 20 fs is demonstrated. The experimental results are in excellent agreement with results obtained by a stochastic time domain model which yet had been solely applied to edge-emitting straight waveguide semiconductor lasers.
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Dominik Auth, Christoph Weber, Mu-Chieh Lo, Patrick Fiala, Pascal Sauer, Guillermo Carpintero, Stefan Breuer, "External optical self-injection stabilization of an InP generic foundry platform based passively mode-locked ring laser," Proc. SPIE 11301, Novel In-Plane Semiconductor Lasers XIX, 113010V (24 February 2020); https://doi.org/10.1117/12.2547146