Buildup of different emission regimes in a nonlinear polarization rotation modelocked all-fiber laser

Q1 Mathematics Chaos, Solitons and Fractals: X Pub Date : 2024-06-04 DOI:10.1016/j.csfx.2024.100114

C. Cuadrado-Laborde , L. Tendela , E. Silvestre , A. Díez , J.L. Cruz , M.V. Andrés

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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.

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在非线性偏振旋转建模全光纤激光器中建立不同的发射机制

我们通过实验和理论研究了在非线性偏振旋转作用下，掺铒亚兆赫全光纤激光器中光脉冲的形成。我们研究了两种不同的发射机制：标准孤子和噪声脉冲。在每种情况下，我们都能确定实现稳定发射状态所需的往返次数。我们沿着激光器的启动瞬态测量了单脉冲的时间轨迹和光学光谱。数值模拟也证实了实验结果。在该激光器的特定条件下，达到单脉冲发射需要约 400 次往返。在类噪声脉冲状态下，只需要 20 个往返就能显示出类噪声脉冲的特征；尽管在大约 400 个往返时也能达到更稳定的发射状态。

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