1. Buildup of different emission regimes in a nonlinear polarization rotation modelocked all-fiber laser
- Author
-
C. Cuadrado-Laborde, L. Tendela, E. Silvestre, A. Díez, J.L. Cruz, and M.V. Andrés
- Subjects
Fiber lasers ,Buildup ,Mode-locking ,Transient dynamics ,Physics ,QC1-999 ,Mathematics ,QA1-939 - Abstract
We investigated experimentally and theoretically the buildup of light pulses in an erbium-doped sub-MHz all-fiber laser modelocked by nonlinear polarization rotation. We were able to study the buildup of two different emission regimes: standard solitons and noise-like pulses. In each case, we were able to determine the round-trips required to achieve a stable emission state. Temporal traces and optical spectra of single pulses were measured along the start-up transient of the laser. The experimental results were also confirmed by numerical simulations. Under the specific conditions of this laser, the soliton regime takes about 400 round-trips to reach single-pulse emission. In the noise-like pulse regime, it takes only 20 round-trips for the characteristics of noise-like pulses to show up; although a more steady-state emission is reached also at about 400 round-trips.
- Published
- 2024
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