Simultaneous temporal and spectral analysis of noise-like pulses in a mode-locked figure-eight fiber laser
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We present an experimental study of complex noise-like pulse dynamics in a passively mode-locked figure-eight fiber laser, by performing simultaneous temporal and spectral mapping of the waveform sequences. The simultaneous measurements allow us to relate temporal and spectral events. We found in particular that the evolution of energy and of temporal features such as the number and width of the wave packets is correlated to spectral variations, namely of the central wavelength and bandwidth of the instantaneous spectrum. The simultaneous temporal and spectral measurements also allowed a substantial improvement in the precision of the latter, which was performed using the dispersive Fourier transform method. In particular, this enhanced precision allowed measuring the subtle spectral differences between the two laser outputs and tracking their evolution over the cycles, providing crucial information that allowed to determine the physical phenomena involved in the observed dynamics. © 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.
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Fiber lasers; Passive mode locking; Photomapping; Spectrum analysis; Central wavelength; Dispersive Fourier transforms; Passively mode-locked; Physical phenomena; Simultaneous measurement; Spectral differences; Spectral measurement; Spectral variation; Mode-locked fiber lasers
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